WO2020147095A1 - Screen configuration method and system for tiled display screen, and non-volatile storage medium - Google Patents

Abstract

A screen configuration method (100) and system (300) for a tiled display screen. The screen configuration method (100) for the tiled display screen comprises: importing the device parameter file of a target display screen control device (S110); parsing the device parameter file to obtain the device parameter of the target display screen control device (S120); setting the tiling unit parameter of a target display screen and the port configuration parameter of the target display screen control device (S130); generating a screen configuration parameter file according to the device parameter, the tiling unit parameter, and the port configuration parameter (S140); and transmitting the screen configuration parameter file to the target display screen control device to achieve the configuration of the target display screen (S150).

Description

Screen configuration method, screen configuration system and non-volatile storage medium of spliced display screen Technical field

This application relates to the field of display technology, and in particular to a screen configuration method of a spliced display screen, a screen configuration system of a spliced display screen, and a non-volatile storage medium.

Background technique

The current splicing display screen configuration method or system only supports online design mode, the function is relatively single, and the realization process consumes too much manpower, material resources and other resources, which increases the cost. Therefore, there is an urgent need to propose a spliced display screen The screen configuration method and a spliced screen configuration system cooperate with the display control device to realize the intelligent configuration of various complex display screens, so that the display screen always shows a perfect state.

Summary of the invention

The embodiments of the present application provide a screen configuration method for spliced display screens, a screen configuration system for spliced display screens, and a non-volatile storage medium, which can be used with display control equipment to implement various complex display screens The intelligent configuration makes the display display perfect state at all times.

On the one hand, the spliced display screen configuration method provided by the embodiment of the present application imports the device parameter file of the target display screen control device; parses the device parameter file to obtain the device of the target display screen control device Parameters; set the splicing unit parameters of the target display screen and the port configuration parameters of the target display control device; generate a screen configuration parameter file according to the device parameters, the splicing unit parameters, and the port configuration parameters; send the configuration The screen parameter file is provided to the target display screen control device to realize the configuration of the target display screen.

In an embodiment of the present application, before the step of sending the screen configuration parameter file to the target display screen control device to implement the configuration of the target display screen, the method further includes: judging whether all the parameters are detected The target display screen control device is connected to the target display screen; if it is detected that the target display screen control device is connected to the target display screen, the screen configuration parameter file is matched with the target display screen control device.

In an embodiment of the present application, before the step of sending the screen configuration parameter file to the target display screen control device to implement the configuration of the target display screen, the method further includes: if all the parameters are not detected The target display screen control device is connected to the target display screen, and the screen configuration parameter file is derived from the first screen configuration device; the screen configuration parameter file is imported to the target display screen control device connected to the target display The second screen configuration device of the screen; in the second screen configuration device, the screen configuration parameter file is matched with the target display screen control device.

In an embodiment of the present application, the device parameters include the device type of the target display screen control device; the splicing unit parameters include the type of the splicing unit, the number of rows and columns of the splicing unit, and the wiring mode between the splicing units.

In an embodiment of the present application, the port configuration parameter is used to configure the attributes of each port of the target display screen control device connected to the target display screen as a master port or a backup port.

In an embodiment of the present application, the matching the screen configuration parameter file with the target display screen control device includes: according to the target display screen in the device parameters of the target display screen control device The device type of the control device matches the real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.

On the other hand, an embodiment of the present application provides a spliced display screen configuration method, which detects whether the first screen configuration device is connected to the target display screen through the target display screen control device; if it is detected that the first screen configuration device passes The target display screen control device is connected to the target display screen to perform an online screen configuration operation; if it is not detected that the first screen configuration device is connected to the target display screen through the target display screen control device, an offline screen configuration is performed Operation; wherein the online screen configuration operation includes: interacting with the target display screen control device to obtain device parameters of the target display screen control device and splicing unit attribute parameters of the target display screen; setting the target The splicing unit configuration parameters of the display screen and the port configuration parameters of the target display screen control device; generate online screen configuration parameters according to the device parameters, the splicing unit attribute parameters, the splicing unit configuration and the port configuration parameters File; and sending the online screen configuration parameter file to the target display screen control device to configure the target display screen; wherein, the offline screen configuration operation includes: importing the target display screen control device The device parameter file is sent to the first screen configuration device; the device parameter file is parsed to obtain the device parameter of the target display screen control device; the splicing unit parameter of the target display screen and the target display are set The port configuration parameters of the screen control device; generate an offline screen configuration parameter file according to the device parameters, the splicing unit parameter, and the port configuration parameter; and send the offline screen configuration parameter file to the target display screen Control the device to realize the configuration of the target display screen.

In an embodiment of the present application, the offline screen configuration operation further includes before the step of sending the offline screen configuration parameter file to the target display screen control device to implement configuration of the target display screen : Export the offline screen configuration parameter file from the first screen configuration device; import the offline screen configuration parameter file to a second screen configuration device connected to the target display screen through the target display screen control device; In the second screen configuration device, the target display screen control device is matched with the offline screen configuration parameter file.

In an embodiment of the present application, the device parameters include: the device type of the target display screen control device; in the offline configuration operation, the splicing unit parameters include: the type of the splicing unit, and the type of the splicing unit. The number of rows and columns and the wiring method between splicing units.

In an embodiment of the present application, in the online screen configuration operation, the splicing unit attribute parameter includes the type of the splicing unit, and the splicing unit configuration parameter includes the number of rows and columns of the splicing unit and the wiring mode between the splicing units , And the port configuration parameters are used to configure the attributes of each port of the target display screen control device connected to the target display screen as a master port or a backup port.

In an embodiment of the present application, the matching the target display screen control device with the offline screen configuration parameter file in the second screen configuration device includes: controlling the device according to the target display screen. The device type of the target display screen control device in the device parameters matches a real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.

In another aspect, a spliced display screen configuration system provided by an embodiment of the present application includes: a memory and one or more processors connected to the memory, and the memory stores the Instruction, the processor executes the instruction to implement: import the device parameter file of the target display screen control device; parse the device parameter file to obtain the device parameters of the target display screen control device; Splicing unit parameters and port configuration parameters of the target display screen control device; generating a screen configuration parameter file according to the device parameters, the splicing unit parameter, and the port configuration parameter; sending the screen configuration parameter file to the The target display screen control device to realize the configuration of the target display screen.

In an embodiment of the present application, the device parameters include the device type of the target display screen control device; the splicing unit parameters include the type of the splicing unit, the number of rows and columns of the splicing unit, and the wiring mode between the splicing units; The port configuration parameter is used to configure the attributes of each port of the target display screen control device connected to the target display screen as a master port or a backup port.

In an embodiment of the present application, the processor is further configured to implement the following step: in the sending the screen configuration parameter file to the target display screen control device, so as to realize the configuration of the target display screen. Before the step, it also includes: judging whether it is detected that the target display screen control device is connected to the target display screen; if it is detected that the target display screen control device is connected to the target display screen, connecting the screen configuration parameter file with the target display screen. The target display screen controls the device to match.

In an embodiment of the present application, the processor is further configured to implement the following step: in the sending the screen configuration parameter file to the target display screen control device, so as to realize the configuration of the target display screen. Before the step, it further includes: if it is not detected that the target display screen control device is connected to the target display screen, exporting the screen configuration parameter file from the first screen configuration device; and importing the screen configuration parameter file to the The target display screen control device is connected to a second screen configuration device of the target display screen; and the screen configuration parameter file is matched with the target display screen control device in the second screen configuration device.

In an embodiment of the present application, the matching the screen configuration parameter file with the target display screen control device includes: according to the target display screen in the device parameters of the target display screen control device The device type of the control device matches the real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.

In an embodiment of the present application, the matching the screen configuration parameter file with the target display screen control device in the second screen configuration device includes: controlling the device according to the target display screen The device type of the target display screen control device in the device parameters matches a real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.

On the other hand, a non-volatile storage medium provided by an embodiment of the present application is used to store a computer-readable program, and the computer-readable program is used for a computer to execute the spliced display as described in any of the foregoing embodiments. How to configure the screen.

The above technical solutions may have one or more of the following advantages: the spliced display screen configuration method, the spliced display screen configuration system and non-volatile storage medium provided by the embodiments of the present application provide offline screen configuration operation and Online screen configuration operation Two screen configuration operations can realize simple and fast screen configuration operations, which can reduce the consumption of manpower and material resources, thereby improving user experience.

BRIEF DESCRIPTION

In order to more clearly describe the technical solutions of the embodiments of the present application, the following will briefly introduce the drawings needed in the description of the embodiments. Obviously, the drawings in the following description are only some embodiments of the present application. A person of ordinary skill in the art can obtain other drawings based on these drawings without creative work.

FIG. 1 is a schematic flowchart of a method 100 for configuring a spliced display screen according to an embodiment of the application;

2A, 2B, and 2C are schematic flowcharts of a method 200 for configuring a spliced display screen according to another embodiment of the application;

3 is a schematic structural diagram of a screen matching system 300 of a spliced display screen according to another embodiment of the application;

4 and 5 are schematic diagrams of partial files of a screen configuration parameter file obtained in an embodiment of this application;

FIG. 6 is a schematic structural diagram of a non-volatile storage medium 500 according to still another embodiment of the application.

detailed description

The technical solutions in the embodiments of the present application will be clearly and completely described below in conjunction with the drawings in the embodiments of the present application. Obviously, the described embodiments are only a part of the embodiments of the present application, rather than all the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present application.

As shown in FIG. 1, a spliced display screen configuration method 100 provided by an embodiment of this application may include:

Step S110: Import the device parameter file of the target display screen control device. Specifically, the device parameter file is, for example, a file in XML format. Before this step, for example, the method further includes: configuring the device parameters of the target display screen control device into the device parameter file to simulate the real target display screen control device. The device parameters include, for example, the device type of the target display screen control device. The device parameters may also include, for example, the number of ports (such as network ports) of the target display screen control device, the type of video source supported by the target display screen control device, and the resolution supported by the target display screen control device. Rate and other parameters. The target display screen control device is, for example, a display screen controller that contains sending card logic, and the sending card logic includes, for example, a programmable logic device, two network ports, and the programmable logic device and the two channels respectively. Two Ethernet PHY chips between the network ports. Of course, in some other embodiments, device parameter files of other display screen control devices other than the target display screen control device can also be imported. However, in this case, the device type of the target display screen control device needs to be selected later.

Step S120: parse the device parameter file to obtain the device parameter of the target display screen control device. Specifically, a deserialization library is used to parse the device parameter file to obtain the device parameter, and display the device parameter.

Step S130: Setting the splicing unit parameters of the target display screen and the port configuration parameters of the target display screen control device. The splicing unit parameters include, for example: the type of splicing unit, the number of rows and columns of the splicing unit, and the wiring mode between the splicing units. The splicing unit parameters may also include, for example, the manufacturer of the splicing unit. The port configuration parameters, for example, are used to configure the attributes of each port of the target display control device connected to the target display as the master port or the backup port, so as to better ensure the normal display of the display. . The target display screen is, for example, an LED display screen that includes a plurality of splicing units (such as LED display boxes), each of the splicing units includes a plurality of LED light points, and a single splicing unit (LED display box) The body includes, for example, a receiving card (or called a scanning card) and one or more LED light board modules connected to the receiving card. The type of the splicing unit is formed by splicing the name of the receiving card (or scanning card) and the number of rows and columns of the plurality of LED light points included in the splicing unit corresponding to the receiving card, for example.

Step S140: Generate a screen configuration parameter file according to the device parameters, the splicing unit parameters, and the port configuration parameters. That is, the screen configuration parameter file includes information such as the device parameters, the splicing unit parameters, and the port configuration parameters. Specifically, the screen configuration parameter file is, for example, a file in the SRCX format. Further, for example, other files such as a screen design drawing may be generated. The screen design drawing is, for example, a file in PNG format. From the screen design drawing, it can be intuitively seen that the target display screen The wiring relationship between the splicing units is also the connection relationship, so that the construction personnel can intuitively understand the design plan of the designer according to the screen design drawing, which is helpful for screen configuration. Figures 4 and 5 show schematic diagrams of partial files obtained by an embodiment of this application.

Step S150: Send the screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen.

Before step S150, the spliced display screen configuration method 100, for example, further includes: determining whether it is detected that the target display screen control device is connected to the target display screen; and if it is detected that the target display screen control device is connected to the target display screen; The target display screen matches the screen configuration parameter file with the target display screen control device.

Further, before step S150, the spliced display screen configuration method 100 may, for example, further include: if it is not detected that the target display screen control device is connected to the target display screen, deriving the display from the first screen configuration device Screen configuration parameter file; import the screen configuration parameter file to a second screen configuration device connected to the target display screen through the target display screen control device; and transfer the screen configuration in the second screen configuration device The parameter file is matched with the target display screen control device. Specifically, the device type of the target display screen control device in the device parameters of the target display screen control device is matched to a real display screen control device of the same device type, and the matched real display screen is controlled The device serves as the target display screen control device, and then can send the screen configuration parameter file to the target display screen control device and the target display screen connected to the target display screen control device with one key, and finally achieve the goal The purpose of the display screen configuration.

The first screen configuration device and the second screen configuration device are, for example, desktop computers, notebook computers, and tablet computers, and the first screen configuration device and the second screen configuration device are installed with the same Screen configuration software, for example, the screen configuration software is used to implement the spliced display screen configuration method 100 in an embodiment of the present application, and the screen configuration software is, for example, the SmartLCT screen configuration software of Xi'an Nova Electronic Technology Co., Ltd.

It is worth mentioning here that the spliced display screen configuration method 100 of an embodiment of the present application may further include, for example, the step of a user selecting whether to open an existing screen configuration parameter file, specifically, the user may choose to open Existing screen configuration parameter file or create a new screen configuration parameter file. If the user chooses to open the existing screen configuration parameter file, the screen configuration method 100 of the spliced display screen will skip steps S110, S120, and S130, and skip directly to step S140 to execute the remaining steps.

As shown in FIG. 2A, a spliced display screen configuration method 200 provided by another embodiment of this application may include:

Step S210: Detect whether the first screen configuration device is connected to the target display screen through the target display screen control device. The target display screen control device is, for example, a display screen controller that contains sending card logic, and the sending card logic includes, for example, a programmable logic device, two network ports, and the programmable logic device and the two channels respectively. Two Ethernet PHY chips between the network ports.

Step S220: If it is detected that the first screen configuration device is connected to the target display screen through the target display screen control device, perform an online screen configuration operation. Of course, in some other embodiments, even if it is detected that the first screen configuration device is connected to the target display screen through the target display screen control device, the offline screen configuration operation may be performed in response to the user's selection.

Step S230: If it is not detected that the first screen configuration device is connected to the target display screen through the target display screen control device, perform an offline screen configuration operation.

Specifically, as shown in FIG. 2B, the online screen configuration operation includes, for example:

Step S221: Interact with the target display screen control device to obtain device parameters of the target display screen control device and splicing unit attribute parameters of the target display screen. Specifically, the device parameters include, for example, the device type of the target display screen control device. The device parameters may also include, for example, the number of ports (such as network ports) of the target display screen control device, the type of video source supported by the target display screen control device, and the resolution supported by the target display screen control device. Rate and other parameters. The splicing unit attribute parameter includes, for example, the type of splicing unit.

Step S223: Set the splicing unit configuration parameters of the target display screen and the port configuration parameters of the target display screen control device. The configuration parameters of the splicing unit include, for example, the number of rows and columns of the splicing unit and the wiring mode between the splicing units. The port configuration parameters, for example, are used to configure the attributes of each port of the target display control device connected to the target display as the master port or the backup port, so as to better ensure the normal display of the display. . The target display screen is, for example, an LED display screen that includes a plurality of splicing units (such as LED display boxes), each of the splicing units includes a plurality of LED light points, and a single splicing unit (such as LED display) The box, for example, includes a receiving card (or called a scanning card) and one or more LED light board modules connected to the receiving card. The type of the splicing unit is formed by splicing the name of the receiving card (or scanning card) and the number of rows and columns of the plurality of LED light points included in the splicing unit corresponding to the receiving card, for example.

Step S225: Generate an online screen configuration parameter file according to the device parameters, the splicing unit attribute parameters, the splicing unit configuration parameters, and the port configuration parameters. That is, the online screen configuration parameter file includes information such as the device parameters, the splicing unit attribute parameters, the splicing unit configuration parameters, and the port configuration parameters. Specifically, the online screen configuration parameter file is, for example, a file in the SRCX format. Further, for example, other files such as a screen design drawing may be generated. The screen design drawing is, for example, a file in PNG format. From the screen design drawing, it can be intuitively seen that the target display screen The wiring relationship between the splicing units is also the connection relationship, so that the construction personnel can intuitively understand the design plan of the designer according to the screen design drawing, which is helpful for screen configuration. as well as

Step S227: Send the online screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen.

It is worth mentioning here that in the spliced display screen configuration method 200 of another embodiment of the present application, the online screen configuration operation may, for example, further include: the user selects whether to open an existing online screen configuration parameter file Specifically, the user can choose to open an existing online configuration parameter file or create a new online configuration parameter file. If the user chooses to open an existing online screen configuration parameter file, the online screen configuration process will skip steps S221, S223, and S225, and skip directly to step S227 to execute the remaining steps.

As shown in FIG. 2C, the offline screen configuration operation includes, for example:

Step S231: Import the device parameter file of the target display screen control device to the first screen configuration device. Specifically, the device parameter file is, for example, a file in XML format. Before this step, for example, the method further includes: configuring the device parameters of the target display screen control device into the device parameter file to simulate the real target display screen control device. The device parameters include, for example, the device type of the target display screen control device. The device parameters may also include, for example, the number of ports (such as network ports) of the target display screen control device, the type of video source supported by the target display screen control device, and the resolution supported by the target display screen control device. Rate and other parameters. Of course, in some other embodiments, device parameter files of other display screen control devices other than the target display screen control device can also be imported. However, in this case, the target display screen control device and the number of devices of the target display screen control device need to be selected subsequently.

Step S232: parse the device parameter file to obtain the device parameter of the target display screen control device. Specifically, a deserialization library is used to parse the device parameter file to obtain the device parameter, and display the device parameter.

Step S233: Set the splicing unit parameters of the target display screen and the port configuration parameters of the target display screen control device. The splicing unit parameters include, for example, the type of the splicing unit, the number of rows and columns of the splicing unit, and the wiring mode between the splicing units. Of course, the splicing unit parameters may also include, for example, information such as the manufacturer of the splicing unit. The port configuration parameters, for example, are used to configure the attributes of each port of the target display control device connected to the target display as the master port or the backup port, so as to better ensure the normal display of the display. .

Step S234: Generate an offline screen configuration parameter file according to the device parameters, the splicing unit parameters and the port configuration parameters. That is, the offline screen configuration parameter file includes information such as the device parameters, the splicing unit parameters, and the port configuration parameters. Specifically, the offline screen configuration parameter file is, for example, a file in the SRCX format. Further, for example, other files such as a screen design drawing may be generated. The screen design drawing is, for example, a file in PNG format. From the screen design drawing, it can be intuitively seen that the target display screen The wiring relationship between the splicing units is also the connection relationship, so that the construction personnel can intuitively understand the design plan of the designer according to the screen design drawing, which is helpful for screen configuration. as well as

Step S235: Send the offline screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen.

Further, in the offline screen configuration operation, before step S235, for example, the method further includes: exporting the offline screen configuration parameter file from the first screen configuration device; and importing the offline screen configuration parameter file to pass the target The display screen control device is connected to the second screen configuration device of the target display screen; and the target display screen control device is matched with the offline screen configuration parameter file in the second screen configuration device. Specifically, the device type of the target display screen control device in the device parameters of the target display screen control device is matched to a real display screen control device of the same device type, and the matched real display screen is controlled As the target display screen control device, the device can then send the offline screen configuration parameter file to the target display screen control device and the target display screen connected to the target display screen control device with one key, and finally realize the The purpose of the target display screen configuration.

The first screen configuration device and the second screen configuration device are, for example, desktop computers, notebook computers, and tablet computers, and the first screen configuration device and the second screen configuration device are installed with the same Screen configuration software, for example, the screen configuration software is used to implement the spliced display screen configuration method 200 in another embodiment of this application, and the screen configuration software is, for example, the SmartLCT screen configuration software of Xi'an Nova Electronic Technology Co., Ltd. .

It is worth mentioning here that in the screen configuration method 200 of another embodiment of the present application, the offline screen configuration process may further include, for example, the step of a user selecting whether to open an existing offline screen configuration parameter file. The user can choose to open an existing offline configuration parameter file or create a new offline configuration parameter file. If the user chooses to open the existing offline screen configuration parameter file, the screen configuration method 100 will skip steps S231, S232, S233, and S234, and skip directly to step S235 to execute the remaining steps.

As shown in FIG. 3, a spliced display screen configuration system 300 provided by another embodiment of this application includes: a screen configuration device 310. The screen configuration device 310 includes a memory 311 and a device connected to the memory 311. One or more processors 313, the memory 311 stores instructions executable by the processor, and the processor 313 executes the instructions to implement the spliced display screen configuration method in the previous embodiment 100. For specific details, refer to the description of the foregoing embodiment, which is not described in detail here. Of course, the execution of the instructions by the processor 313 can also be used to implement the screen configuration method 200 of the spliced display screen in another embodiment, except that the screen configuration system 300 of the spliced display screen at this time includes The number of the screen configuration device 310 is two, respectively, the first screen configuration device and the second screen configuration device described in the screen configuration method 200 of the spliced display screen. As for other specific details, please refer to the other embodiment Description, not detailed here.

As shown in FIG. 6, a non-volatile storage medium 500 provided by yet another embodiment of this application is used to store a computer-readable program, and the computer-readable program is used for a computer to execute as described in the previous embodiment. The screen configuration method 100 of the spliced display screen described above or the screen configuration method 200 of the spliced display screen described in another embodiment described above. For specific details, reference may be made to the description of the foregoing one embodiment and the foregoing other embodiment, which are not described in detail here.

In summary, the foregoing embodiments of the present application provide two screen configuration operations, offline design operations and online design operations, which can implement simple and fast screen configuration operations, reduce the consumption of manpower and material resources, and improve user experience. Among them, the offline configuration operation does not need to connect the display control equipment and the display screen, the display screen configuration parameters are designed offline, and the offline configuration parameter file is output. The construction personnel can perform on-site screen configuration according to the offline configuration parameter file. When the display screen control device and the display screen are connected, the offline configuration parameter file can be sent to the display screen for configuration with one key. Online screen configuration operation is connected with the display control device and the display screen, and the display screen configuration parameters can be designed online, and the online screen configuration parameter file can be directly sent online to the display screen for configuration. Finally, the spliced display screen matching methods 100 and 200, the spliced display screen matching system 300, and the non-volatile storage medium 500 provided by the embodiments of the present application can cooperate with the display control device to achieve various complex displays. The intelligent configuration of the screen makes the display perfect state at all times.

In the several embodiments provided in this application, it should be understood that the disclosed system, device and/or method may be implemented in other ways. For example, the device embodiments described above are only schematic. For example, the division of the unit/module is only a division of logical functions. In actual implementation, there may be another division manner, for example, a multi-channel unit or module may The combination can either be integrated into another system, or some features can be ignored, or not implemented. In addition, the displayed or discussed mutual coupling or direct coupling or communication connection may be indirect coupling or communication connection through some interfaces, devices or units, and may be in electrical, mechanical, or other forms.

The units/modules described as separate components may or may not be physically separated, and the components displayed as units/modules may or may not be physical units, that is, may be located in one place, or may be distributed to multiple channels On the network unit. Some or all of the units/modules may be selected according to actual needs to achieve the objectives of the solutions of the embodiments.

In addition, each functional unit/module in each embodiment of the present application may be integrated into one processing unit/module, or each unit/module may exist alone physically, or two or more units/modules may be integrated into one Unit/module. The above-mentioned integrated unit/module can be realized in the form of hardware, or can be realized in the form of hardware plus software functional unit/module.

The above integrated units/modules implemented in the form of software functional units/modules may be stored in a computer-readable storage medium. The above software functional unit is stored in a storage medium, and includes several instructions to enable one or more processors of a computer device (which may be a personal computer, server, or network device, etc.) to execute the methods described in the embodiments of the present application Part of the steps. The foregoing storage media include: U disk, mobile hard disk, read-only memory (Read-Only Memory, ROM for short), random access memory (Random Access Memory, RAM for short), magnetic disk or optical disc, etc., which can store program codes Medium.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the application, not to limit them; although the application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand: The technical solutions recorded in the foregoing embodiments are modified, or some of the technical features are equivalently replaced; these modifications or replacements do not make the essence of the corresponding technical solutions deviate from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (18)

1. A splicing display screen configuration method, including:

   Import the device parameter file of the target display control device;

   Parsing the device parameter file to obtain device parameters of the target display screen control device;

   Setting the splicing unit parameters of the target display screen and the port configuration parameters of the target display screen control device;

   Generate a screen configuration parameter file according to the device parameters, the splicing unit parameters, and the port configuration parameters;

   Sending the screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen.
2. The spliced display screen configuration method of claim 1, wherein before the step of sending the screen configuration parameter file to the target display screen control device to implement the configuration of the target display screen ,Also includes:

   Determining whether it is detected that the target display screen control device is connected to the target display screen;

   If it is detected that the target display screen control device is connected to the target display screen, the screen configuration parameter file is matched with the target display screen control device.
3. The spliced display screen configuration method according to claim 2, wherein, before the step of sending the screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen ,Also includes:

   If it is not detected that the target display screen control device is connected to the target display screen, export the screen configuration parameter file from the first screen configuration device;

   Importing the screen configuration parameter file to a second screen configuration device connected to the target display screen through the target display screen control device;

   Matching the screen configuration parameter file with the target display screen control device in the second screen configuration device.
4. The spliced display screen configuration method of claim 1, wherein the device parameters include the device type of the target display screen control device; the splicing unit parameters include: the type of splicing unit, the rank of the splicing unit Number and wiring between splicing units.
5. The spliced display screen configuration method of claim 1, wherein the port configuration parameters are used to configure the attributes of each port of the target display control device connected to the target display as the master Port or backup port.
6. The spliced display screen configuration method of claim 2, wherein the matching the screen configuration parameter file with the target display screen control device comprises: controlling the device according to the target display screen The device type of the target display screen control device in the device parameters matches a real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.
7. A splicing display screen configuration method, including:

   Detect whether the first screen configuration device is connected to the target display screen through the target display screen control device;

   If it is detected that the first screen configuration device is connected to the target display screen through the target display screen control device, perform an online screen configuration operation;

   If it is not detected that the first screen configuration device is connected to the target display screen through the target display screen control device, perform an offline screen configuration operation;

   Wherein, the online screen configuration operation includes:

   Interacting with the target display screen control device to obtain device parameters of the target display screen control device and splicing unit attribute parameters of the target display screen;

   Setting the splicing unit configuration parameters of the target display screen and the port configuration parameters of the target display screen control device;

   Generating an online screen configuration parameter file according to the device parameters, the splicing unit attribute parameters, the splicing unit configuration parameters, and the port configuration parameters; and

   Sending the online screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen;

   Wherein, the offline screen configuration operation includes:

   Import the device parameter file of the target display screen control device to the first screen configuration device;

   Parsing the device parameter file to obtain the device parameter of the target display screen control device;

   Setting the splicing unit parameters of the target display screen and the port configuration parameters of the target display screen control device;

   Generating an offline screen configuration parameter file according to the device parameters, the splicing unit parameters, and the port configuration parameters; and

   Send the offline screen configuration parameter file to the target display screen control device to implement configuration of the target display screen.
8. The spliced display screen configuration method according to claim 7, wherein the offline screen configuration operation is in the sending of the offline screen configuration parameter file to the target display screen control device, so as to achieve the target Before the configuration of the display screen, it also includes:

   Export the offline screen configuration parameter file from the first screen configuration device;

   Importing the offline screen configuration parameter file to a second screen configuration device connected to the target display screen through the target display screen control device;

   Match the target display screen control device with the offline screen configuration parameter file in the second screen configuration device.
9. The spliced display screen configuration method of claim 7, wherein the device parameters include: the device type of the target display control device; in the offline screen configuration operation, the splicing unit parameters include ：The type of splicing unit, the number of rows and columns of splicing unit, and the wiring method between splicing units.
10. 7. The spliced display screen configuration method of claim 7, wherein, in the online screen configuration operation, the splicing unit attribute parameter includes the type of splicing unit, and the splicing unit configuration parameter includes the rank of the splicing unit The wiring mode between the digital and splicing units, and the port configuration parameters are used to configure the attributes of each port of the target display screen control device connected to the target display screen as a master port or a backup port.
11. The spliced display screen configuration method of claim 8, wherein the matching the target display screen control device with the offline screen configuration parameter file in the second screen configuration device includes: In the device parameters of the target display screen control device, the device type of the target display screen control device is matched with a real display screen control device of the same device type, and the matched real display screen control device is used as the The target display screen control device.
12. A spliced display screen configuration system, comprising: a memory and one or more processors connected to the memory, the memory storing instructions executable by the processor, and the processor executing the instructions To achieve:

    Import the device parameter file of the target display control device;

    Parsing the device parameter file to obtain device parameters of the target display screen control device;

    Setting the splicing unit parameters of the target display screen and the port configuration parameters of the target display screen control device;

    Generate a screen configuration parameter file according to the device parameters, the splicing unit parameters, and the port configuration parameters;

    Sending the screen configuration parameter file to the target display screen control device to realize the configuration of the target display screen.
13. The spliced display screen configuration system of claim 12, wherein the device parameters include the device type of the target display screen control device; the splicing unit parameters include the type of splicing unit and the number of rows and columns of the splicing unit And the wiring mode between the splicing unit; the port configuration parameter is used to configure the attributes of each port of the target display screen control device connected to the target display screen as a master port or a backup port.
14. The spliced display screen configuration system of claim 12, wherein the processor is further configured to implement the following step: in the sending of the screen configuration parameter file to the target display screen control device, to achieve Before the step of configuring the target display screen, it also includes:

    Determining whether it is detected that the target display screen control device is connected to the target display screen;

    If it is detected that the target display screen control device is connected to the target display screen, the screen configuration parameter file is matched with the target display screen control device.
15. The spliced display screen configuration system of claim 14, wherein the processor is further configured to implement the following step: in the step of sending the screen configuration parameter file to the target display screen control device, Before the step of configuring the target display screen, it also includes:

    If it is not detected that the target display screen control device is connected to the target display screen, export the screen configuration parameter file from the first screen configuration device;

    Importing the screen configuration parameter file to a second screen configuration device connected to the target display screen through the target display screen control device;

    Matching the screen configuration parameter file with the target display screen control device in the second screen configuration device.
16. The spliced display screen configuration system of claim 14, wherein the matching the screen configuration parameter file with the target display screen control device comprises: controlling the device according to the target display screen The device type of the target display screen control device in the device parameters matches a real display screen control device of the same device type, and the matched real display screen control device is used as the target display screen control device.
17. The spliced display screen configuration system of claim 15, wherein the matching the screen configuration parameter file with the target display screen control device in the second screen configuration device includes: The device type of the target display screen control device in the device parameters of the target display screen control device matches a real display screen control device of the same device type, and the matched real display screen control device is used as the Target display control device.
18. A non-volatile storage medium for storing a computer readable program for a computer to execute the spliced display screen configuration method according to any one of claims 1 to 6.

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