CN112631225A - Multi-device plan execution method, device and system and computer readable storage medium - Google Patents

Abstract

The embodiment of the invention discloses a multi-device plan execution method, a multi-device plan execution device, a multi-device plan execution system and a computer readable storage medium. The multi-device plan execution method comprises the following steps: acquiring respective device information of a plurality of devices of different types, wherein the plurality of devices comprise at least one signal source device; generating a plurality of simulation devices in one-to-one correspondence with the plurality of devices according to the device information of the plurality of devices; establishing a track-seeking system according to the equipment connection relation and the plurality of simulation equipment; obtaining a target plan, wherein the target plan comprises a plurality of scenes to be displayed; starting a target plan; and generating a device control instruction based on the target plan and sending the device control instruction to the seek system so that the target devices in the multiple devices in the seek system can display multiple scenes to be displayed in the target plan according to the device control instruction. The embodiment of the invention can realize synchronous control of multiple devices and multiple scenes, and improves the control efficiency.

Description

Multi-device plan execution method, device and system and computer readable storage medium

Technical Field

The present invention relates to the field of display technologies, and in particular, to a method and an apparatus for executing a multi-device plan, a system for executing a multi-device plan, and a computer-readable storage medium.

Background

In the places such as command centers, decision centers, exhibition halls and the like, in order to present the displayed contents on a large screen according to a pre-designed thought (namely a plan) in a certain sequence. This involves many manufacturers and many devices, for example: the display screen, the display control card (also called send-receive card), the display controller (also called send-receive card), the video splicer, the video matrix switch, the IPC (IP Camera, network CAMERA) signal source, the video signal source, and various different types of equipment such as light switching equipment, curtain controlgear, air conditioner, projecting apparatus. In order to realize simultaneous linkage response of signal source switching and on-site light regulation and control equipment, sound regulation and control equipment, curtain control equipment, an air conditioner and the like, multiple persons are required to cooperate, cooperation operation is required by means of central control equipment, the cost is high, the efficiency is low, and errors in the linkage control process can be caused by inconsistency of cooperation of the multiple persons

Therefore, it is an urgent technical problem to provide a high-precision linkage control system.

Disclosure of Invention

Therefore, in view of at least some of the disadvantages and shortcomings in the prior art, embodiments of the present invention provide a method, an apparatus, a system and a computer readable storage medium for executing a multi-device plan, which can implement synchronous control of multiple devices and multiple scenes, and improve control efficiency.

In one aspect, an embodiment of the present invention provides a method for executing a multi-device plan, including: acquiring respective device information of a plurality of devices of different types, wherein the plurality of devices comprise at least one signal source device; generating a plurality of simulation devices in one-to-one correspondence with the plurality of devices according to the device information of the plurality of devices; establishing a track-seeking system according to the equipment connection relation and the plurality of simulation equipment; obtaining a target plan, wherein the target plan comprises a plurality of scenes to be displayed; starting the target plan; and generating a device control instruction based on the target plan and sending the device control instruction to the seek system so that the target device in the multiple devices in the seek system can display the multiple scenes to be displayed in the target plan according to the device control instruction.

According to the technical scheme, the simulation equipment is generated according to the equipment information of the plurality of equipment, the track seeking system is established according to the equipment connection relation and the simulation equipment, the target plans comprising a plurality of scenes to be displayed are displayed according to the equipment control instructions through the track seeking system, the control over the plurality of equipment and the plurality of scenes is realized simultaneously, the problem that the control over the plurality of scenes of the plurality of display screens cannot be realized simultaneously in the prior art is solved, the requirement of field equipment control on personnel is lowered, the investment of control personnel is reduced, so that the site which needs multi-person cooperation and synchronous control originally can be controlled by one person, even unmanned and automatic control is realized, the field control efficiency and the control quality are improved, and the accuracy of field control is ensured.

In an embodiment of the present invention, the device information includes a device name, a device type, a device model, a device communication mode, a device communication protocol, and channel information; the device information of the signal source device further includes a signal source name, a signal source type, a signal source configuration mode, a signal source resolution, a signal source IP address, and a signal source ID.

In an embodiment of the present invention, the device connection relationship includes a user-defined connection relationship or a physical connection relationship among the plurality of devices.

In one embodiment of the present invention, the establishing a seek system according to the device connection relationship and the plurality of emulation devices includes: loading and displaying the plurality of simulation devices; connecting the plurality of simulation devices according to the device connection relation to obtain a track-seeking system topological structure; and connecting the plurality of devices based on the seek system topology to obtain the seek system.

In one embodiment of the invention, the plurality of simulation devices comprises at least one simulation display screen; the multi-device plan execution method further comprises: creating the target plan, wherein the creating the target plan specifically comprises: displaying a plan adding interface; acquiring a plan name, an execution mode and execution time of the target plan; selecting a target simulation display screen in at least one simulation display screen corresponding to at least one display screen displaying the scenes to be displayed; loading a target scene to be displayed in the plurality of scenes to be displayed to the target simulation display screen; and obtaining the target plan based on the target simulation display screen and the target to-be-displayed display scene.

In one embodiment of the present invention, the multi-device protocol execution method further includes: and responding to the eighth operation of the user, and creating the plurality of scenes to be displayed.

In one embodiment of the invention, said plurality of emulated devices comprises at least one emulated signal source device, each said emulated signal source device comprising at least one emulated signal source; the multi-device plan execution method further comprises: creating the plurality of scenes to be displayed; the creating of the plurality of scenes to be shown comprises the following steps: selecting the target simulation display screen; loading a target simulation signal source in the at least one simulation signal source to a target position in the target simulation display screen to generate a target simulation signal source picture area in the target simulation display screen so as to generate a target simulation signal source picture area in the target simulation display screen; and generating the target scene to be displayed based on the target simulation display screen and the target signal source picture area.

In one embodiment of the invention, the plurality of devices includes a peripheral device; the initiating the target protocol comprises: acquiring a plan triggering instruction sent by the peripheral equipment; and starting the target plan according to the plan triggering instruction.

On the other hand, an embodiment of the present invention provides a multi-device plan execution apparatus, configured to implement the multi-device plan execution method according to any one of the foregoing descriptions, and include: the device information acquisition module is used for acquiring respective device information of a plurality of devices with different types, wherein the plurality of devices comprise at least one signal source device; the simulation equipment generation module is used for generating a plurality of simulation equipment which are in one-to-one correspondence with the plurality of equipment according to the equipment information of the plurality of equipment; the system comprises a plurality of simulation devices, a track searching system establishing module and a track searching system establishing module, wherein the simulation devices are used for simulating the track searching system; the target plan obtaining module is used for obtaining a target plan, and the target plan comprises a plurality of scenes to be displayed; the target plan starting module is used for starting the target plan; and the target plan display module is used for generating a device control instruction based on the target plan and sending the device control instruction to the seek system so as to enable target devices in the multiple devices in the seek system to display the multiple scenes to be displayed in the target plan according to the device control instruction.

In another aspect, an embodiment of the present invention provides a multi-device plan execution system, which includes a memory and a processor connected to the memory, where the memory stores a computer program, and the processor executes the multi-device plan execution method when executing the computer program.

In another aspect, an embodiment of the present invention provides a computer-readable storage medium, which stores computer-executable instructions, where the computer-executable instructions are configured to execute the foregoing multi-device plan execution method.

The technical scheme can have one or more of the following advantages or beneficial effects: according to the embodiment of the invention, the simulation equipment is generated according to the equipment information of the plurality of equipment, the track seeking system is established according to the equipment connection relation and the simulation equipment, the target plan comprising a plurality of scenes to be displayed is displayed according to the equipment control instruction through the track seeking system, the control over the plurality of equipment and the plurality of scenes simultaneously is realized, the problem that the control over the plurality of scenes of a plurality of display screens cannot be simultaneously realized in the prior art is solved, the requirement of the control over the field equipment on personnel is reduced, the investment of control personnel is reduced, so that the field which needs multi-person cooperation and synchronous control originally can be controlled by one person, even unmanned and automatic control can be realized, the field control efficiency and the control quality are improved, and the accuracy of the field control is ensured. In addition, the starting and the execution of the target plan are indirectly triggered through peripheral equipment (also called as peripheral equipment), and the participation degree and the experience degree of a user are further improved.

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 method for executing a multi-device plan according to a first embodiment of the present invention.

Fig. 2 is a detailed flowchart of step S15 shown in fig. 1.

Fig. 3 is a detailed flowchart of step S17 shown in fig. 1.

Fig. 4 is a flowchart illustrating another method for implementing a multi-device plan according to the first embodiment of the present invention.

Fig. 5 is a detailed flowchart of step S19 shown in fig. 4.

Fig. 6 is a flowchart illustrating a method for executing a multi-device plan according to a first embodiment of the present invention.

Fig. 7 is a detailed flowchart of step S20 shown in fig. 4.

Fig. 8 is a schematic structural diagram of a multiple device plan execution system for implementing the multiple device plan execution method according to the first embodiment of the present invention.

Fig. 9a to 9j are schematic diagrams illustrating effects of implementing the method for executing a multi-device plan according to the first embodiment of the present invention.

Fig. 10 is a schematic structural diagram of a multi-device plan executing apparatus according to a second embodiment of the present invention.

Fig. 11 is a schematic structural diagram of a multi-device plan execution system according to a third embodiment of the present invention.

Fig. 12 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 any inventive step, shall fall within the scope of the present invention.

[ first embodiment ] A method for manufacturing a semiconductor device

As shown in fig. 1, a method for executing a multi-device plan is provided in a first embodiment of the present invention. The multi-device plan execution method comprises the following steps:

s11: acquiring respective device information of a plurality of devices of different types, wherein the plurality of devices comprise at least one signal source device;

s12: generating a plurality of simulation devices in one-to-one correspondence with the plurality of devices according to the device information of the plurality of devices;

s13: establishing a track-seeking system according to the equipment connection relation and the plurality of simulation equipment;

s14: obtaining a target plan, wherein the target plan comprises a plurality of scenes to be displayed;

s15: starting the target plan; and

s16: generating a device control instruction based on the target plan and sending the device control instruction to the seek system so that target devices in the multiple devices in the seek system can display the multiple scenes to be displayed in the target plan according to the device control instruction;

according to the embodiment of the invention, the simulation equipment is generated according to the equipment information of the plurality of equipment, the track seeking system is established according to the equipment connection relation and the simulation equipment, the target plan comprising a plurality of scenes to be displayed is displayed according to the equipment control instruction through the track seeking system, the control over the plurality of equipment and the plurality of scenes is realized simultaneously, the problem that the control over the plurality of scenes of a plurality of display screens cannot be simultaneously realized in the prior art is solved, the requirement of the control over the field equipment on personnel is reduced, the investment of control personnel is reduced, so that the field which needs multi-person cooperation and synchronous control originally can be controlled by one person, even unmanned and automatic control can be realized, the field control efficiency and the control quality are improved, and the accuracy of the field control is ensured.

Here, the plurality of devices are, for example, a plurality of devices of different types, such as a display screen, a display controller (also called a transmitting card), a video splicer, a video matrix switcher, an IPC (IP CAMERA, web CAMERA) signal source device, a local video signal source device, a light switching device, a curtain control device, an air conditioner, a projector, and the like. The device information includes, for example, a device name, a device type, a device model, a device communication method, a device communication protocol, channel information, and the like. The device communication mode may include, for example, serial port communication, internet port communication, etc.; for serial port communication, the device communication protocol includes RS232, RS432, RS485, and the like, for example. For portal communications, device communication protocols include, for example: TCP, UDP, HTTP, etc. Of course, the device information may also include baud rate, rated power, belonging area, etc., and the present invention is not limited thereto. The plurality of devices includes at least one signal source device. For the signal source device, the device information further includes signal source information including, for example, a signal source name, a signal source type, a signal source resolution. The signal source type may include, for example, a network video source, a local video source, etc. For the network video source, the signal source information may also include a signal source configuration mode, for example, RTSP, GB28181, ONVIF, and the like. For local video sources, the source types may include, for example: HDMI1.3, HDMI1.4, HDMI2.0, SL-DVI, DL-DVI, DP1.1, DP1.2, 3G-SDI. Of course, the signal source information may also include a signal source ID, a signal source IP address, a refresh rate, a sampling rate bit depth, and the like, which is not limited in the present invention. The device connection relation comprises a user-defined connection relation or a physical connection relation among the plurality of devices. That is, the user may customize the connection relationship between the multiple devices, and of course, the connection relationship between the devices may also be an actual physical connection relationship between the multiple devices.

Specifically, as shown in fig. 2, step S13 includes, for example:

s131: loading and displaying the plurality of simulation devices;

s133: connecting the plurality of simulation devices according to the device connection relation to obtain a track-seeking system topological structure; and

s135: connecting the plurality of devices based on the seek system topology to obtain the seek system.

Further, the plurality of devices may, for example, further include peripheral devices. The peripheral devices may include, for example, a motion sensing handle, a VR (Virtual Reality) helmet, and other devices capable of human-computer interaction. As shown in fig. 3, step S15 includes, for example:

s151: acquiring a plan triggering instruction sent by the peripheral equipment; and

s153: and starting the target plan according to the plan triggering instruction.

Therefore, the starting and the execution of the target plan can be indirectly triggered through the peripheral equipment (also called peripheral equipment), and the participation degree and the experience degree of the user are further improved.

Further, as shown in fig. 4, the multi-device plan execution method may further include:

s17: and creating the target plan.

Further, as shown in fig. 5, step S17 includes, for example:

s171: displaying a plan adding interface;

s173: acquiring a plan name, an execution mode and execution time of the target plan;

s174: selecting a target simulation display screen in at least one simulation display screen corresponding to at least one display screen displaying the scenes to be displayed;

s175: loading a target scene to be displayed in the plurality of scenes to be displayed to the target simulation display screen;

s177: and obtaining the target plan based on the target simulation display screen and the target to-be-displayed display scene.

In one embodiment of the present invention, the plurality of emulated devices includes at least one emulated signal source device, each of the emulated signal source devices including at least one emulated signal source. As shown in fig. 6, before step S17, the method for executing a multi-device plan may further include:

s18: and creating the plurality of scenes to be shown.

Specifically, as shown in fig. 7, step S18 includes, for example:

s181: selecting the target simulation display screen;

s183: loading a target simulation signal source in the at least one simulation signal source to a target position in the target simulation display screen so as to generate a target simulation signal source picture area in the target simulation display screen;

s185: and generating the target scene to be displayed based on the target simulation display screen and the target signal source picture area.

For the convenience of understanding the present invention, the steps of the method for implementing the multi-device plan of the present embodiment will be described in detail with reference to fig. 8 to 9 j.

The multi-device plan executing method provided by the embodiment of the invention responds to the user operation through multi-device plan executing software installed on an upper computer such as a PC (personal computer) and realizes the display and control of multiple devices and multiple scenes by sending control instructions to the multiple devices. Therefore, a plurality of devices and an upper computer need to be connected, and corresponding configuration is performed to enable the upper computer and the plurality of devices to communicate with each other, and of course, various communication modes can be adopted for the communication modes, which are not described herein again. The plurality of devices herein may include, for example, a plurality of devices of different types, such as a display screen, a display controller (also called a transmitter card), an IPC camera, a local video source device, a video splicer, a video matrix switcher and light switching device, a curtain control device, an air conditioner, a projector, and the like. I.e. various equipment involved in the field, e.g. large evening clubs, event sites, etc.

Fig. 8 is a schematic structural diagram of a multi-device plan execution system for implementing the multi-device plan execution method according to the embodiment of the present invention. Specifically, the multi-device plan execution system includes, for example, a control center, an acquisition server, and a plurality of devices such as a display screen, a video processing device, and the like. The control center is, for example, an upper computer such as a PC, on which multi-device plan execution software is installed. The collection server may be, for example, another upper computer such as a PC, connected between the control center and the plurality of devices, and configured to receive the control instruction sent by the control center and control and send the control instruction to a target device in the plurality of devices so that the target device completes a corresponding operation, and the collection server may further perform data collection and monitoring on the plurality of devices. The plurality of devices are used for receiving the control instruction and executing corresponding operation according to the control instruction.

After the plurality of devices are physically connected to the upper computer, the plurality of devices are managed, for example, device data of the plurality of devices is acquired. As shown in fig. 9a, the multi-device plan execution software in the control center acquires device information of multiple devices, such as device basic information, extension information, device protocol instruction set, device communication method, device protocol, device channel data, and the like, from the multiple devices, for example, by responding to a user operation. These data are maintained collectively in a database, which may be located, for example, on the acquisition server, but may of course be at other locations.

Wherein the plurality of devices may for example comprise at least one signal source device, each signal source device being adapted to provide at least one signal source. The signal source devices may include, for example, network signal source devices such as IPC cameras, local signal source devices such as display controllers, upper computers, video processing devices, and the like. The signal source may be, for example, a video signal, an image signal, or the like. For the signal source device, signal source information of the signal source device also needs to be acquired. Specifically, as shown in fig. 9b, the multi-device protocol execution software acquires signal source information of at least one signal source, for example, by responding to a user operation. The signal source information includes, for example: signal source name, signal source type, signal source resolution, etc. Therefore, the signal source device needs to be connected to the acquisition server or even the control center before providing the signal source.

Next, the multi-device plan executing software generates a plurality of simulation devices corresponding to the plurality of devices one to one according to the device information of each of the plurality of devices, see fig. 9 c. The plurality of simulated devices are correspondingly associated with the plurality of devices. The user can acquire the device information of the associated device by executing the operation of the simulation device generated in the software on the multi-device plan. The generated simulation signal and the device can be seen in fig. 9 d.

Then, the multi-device plan execution software establishes a seek system according to the device connection relation and the plurality of simulation devices. The seek system herein includes, for example, the association and connection order of the devices that execute the target plan. The device connection relation comprises a user-defined connection relation or a physical connection relation among the plurality of devices. That is, the user may customize the connection relationship between the multiple devices, and of course, the device connection relationship may also be an actual physical connection relationship between the multiple devices. Specifically, the multi-device plan execution software responds to user operation to load and display the at least one emulation signal source and the plurality of emulation devices; then the multi-equipment plan execution software responds to user operation and connects the at least one signal source and the plurality of equipment according to the equipment connection relation; and finally, connecting the at least one signal source and the plurality of devices by the multi-device plan execution software based on the seek system topology structure to obtain the seek system. For example, as shown IN fig. 9e, IN the editing interface of the topology structure diagram of the track seeking system of the multi-device plan execution software, four camera signal sources, four simulated HDMI signal sources, an H-series simulated video processing device, and four simulated display screens are loaded and displayed, and the four camera signal sources and the four simulated HDMI signal sources are respectively connected to the input channels (e.g., input 1-1, input 1-2, input 1-3, input 1-4, input 2-1, input 2-2, input 2-3, and input 2-4) of different input interfaces (e.g., IN-1, IN-2) on the simulated video processing device. The four simulation display screens are respectively connected to input channels of different output interfaces on the simulation video processing equipment, for example, the first simulation display screen (namely, the screen 1) is connected with four output channels outpout 11-1, outpout 11-2, outpout 11-3 and outpout 11-4 of an output interface OUT-11; the second simulation display screen (namely the screen 2) is connected with four output channels outpout 12-1, outpout 12-2, outpout 12-3 and outpout 12-4 of the output interface OUT-12; the third simulation display screen (namely the screen 3) is connected with an output channel outpout 13-1 of the output interface OUT-13; the fourth simulation display screen (i.e. the screen 4) is connected with one output channel MVR 14-1 of the output interface OUT-14. Finally, the multi-device plan executing method connects the at least one signal source and the plurality of devices according to the seek system topology structure to obtain the seek system. Therefore, the simulation signal source and the simulation equipment are connected through the connection line, so that the communication connection between the signal source and the plurality of equipment is realized in the real sense, and the subsequent plans are started, executed and displayed. Thus, the single device becomes a device service system.

It should be noted here that the multi-device plan execution software may create the seek system in the above manner, or may connect the plurality of devices according to the device connection relationship in response to a user operation, and then connect the plurality of simulation devices according to the device connection relationship to obtain a topological structure of the seek system, so as to establish the seek system. That is, the steps of connecting a plurality of devices or connecting a plurality of simulation devices may be interchanged.

Next, the multi-device plan execution software obtains a target plan. Wherein the target plan comprises a plurality of scenes to be shown. The target plan may be, for example, a plan that has been created and/or edited and includes a plurality of scenes to be executed. The plan here may be, for example, a plan obtained by editing the plurality of scenes to be displayed in a preset order. The preset sequence may be, for example, a time sequence, that is, the plurality of scenes to be displayed are arranged according to the preset time sequence. The target plan can be stored in the control center, for example, to facilitate the maintenance, editing, and later playback of the plan. For example, the target plan includes, for example, the following scenarios:

8: 00-the display screen is lighted up, and the brightness of the display screen is controlled at 60%;

8:05, lighting a field atmosphere lamp, opening a window and opening a curtain;

8: 10-the temperature of the air conditioner is adjusted to 22 ℃, and the propaganda films of the large-screen broadcasting company are played;

8: 20-introducing company products by linkage of a plurality of display screens;

8: 35-welcome background switch;

9:30 (the name is 30) — the propaganda card from my love you's country;

10: 00-turning off the atmosphere lamp, and adjusting the brightness of the display screen to 40%.

Next, the target protocol is started. Specifically, for example, the multi-device protocol execution software triggers the start of the target protocol, e.g., in response to a user operation, such as triggering a "protocol issue" button in a protocol editing interface. Of course, the multi-device plan execution software can also automatically start the target plan in preset time, so that the automatic control and unmanned control of the target plan can be realized, and the control efficiency is improved.

Finally, the multi-device plan executing software generates device control instructions based on the target plan and sends the device control instructions to a target device of the plurality of devices in the seek system. Specifically, the multi-device plan execution software generates a device control instruction of the target device based on the target plan and according to the target device information. The device control instruction herein may include target device information, control information, for example. The target device information includes, for example, a device name and a device model. The control information includes, for example: the method comprises the steps of lighting, turning off the light, turning off the screen, outputting a signal source and the like. For example, when the target plan is to turn on the field atmosphere lamp, open the window, and open the curtain at 8 o' clock 05, the multi-device plan execution software generates the device control commands for the three devices, i.e., the field atmosphere lamp, the window, and the curtain, such as the device control commands for the field atmosphere lamp including: the 'field atmosphere lamp', the type of the 'field atmosphere lamp' + 'lighting', and the equipment control instruction of the window 1 comprises: "window 1" + "model of window 1" + "open", the device control instructions for the shade 1 include: the curtain 1 + the model of the curtain 1 + is opened, then the multi-device plan execution software sends the device control instructions of the three devices to the three devices in the seek system at 8 o' clock 05, and the three devices execute corresponding operations according to the respective device control instructions. Therefore, the simulation equipment is generated according to the equipment information of the plurality of equipment, the simulation signal source is generated according to the signal information of the signal source, the seek system is established according to the simulation equipment and the simulation signal source to be connected, the target plan comprising a plurality of scenes to be displayed is displayed according to the equipment control instruction through the seek system, the control over the plurality of equipment and the plurality of scenes is realized simultaneously, the problem that the control over the plurality of scenes of a plurality of display screens cannot be performed simultaneously in the prior art is solved, the requirement of the control over personnel by the equipment in the current field is lowered, the investment of control personnel is reduced, the site which originally needs multi-person cooperation and synchronous control can be controlled by one person, even unmanned and automatic control can be realized, the site control efficiency and the control quality are improved, and the accuracy of the site control is ensured.

Of course, if the control center does not store the already created plans, the target plans needed by the users need to be created. Therefore, the multi-device plan execution method according to the embodiment of the present invention further includes creating a target plan. Specifically, the multi-device protocol execution software displays a protocol addition interface (see fig. 9f), for example, in response to a user operation such as a user triggering a protocol addition button; then, the multi-device plan execution software responds to user operations, such as user information input operations, and acquires the plan name, execution mode, and execution time of the target plan. The execution mode may include, for example, automatic execution, manual execution, and loop execution. Automatic execution means that the protocol can be automatically executed when the execution time requirement is met. Manual execution means that a user is required to manually trigger an execution protocol or a peripheral device triggers an execution protocol. The circulation execution means that the plan is always circulated; then responding to user operation, for example, triggering an add screen button (see fig. 9f) in the plan add interface, and selecting a target simulation display screen in at least one simulation display screen corresponding to at least one display screen displaying the plurality of scenes to be displayed; secondly, responding to user operation, such as triggering an 'add scene' button (see fig. 9g) in a pre-arranged adding interface, and loading a target scene to be displayed in the plurality of scenes to be displayed to the target simulation display screen; then, in response to a user operation, for example, triggering a "save" button in the plan adding interface, the target plan is obtained based on the target simulation display screen and the target to-be-shown display scene (see fig. 9 h). As shown in fig. 9h, it includes a plurality of plans, each plan including a plurality of scenes to be shown in time order.

In addition, after the target to-be-displayed scene is added, the multi-device plan execution software may also modify the scene parameters of the target to-be-displayed scene in response to a parameter adjustment operation of the user on the target to-be-displayed scene (see fig. 9 i). The scene parameter here may be, for example, a transition special effect, an execution time length, and the like. Transition effects include, for example, cut through and fade in and out. The direct switching special effect is, for example, directly switching to the target scene to be shown. The fade-in and fade-out special effect is, for example, to gradually switch the original scene into the target scene to be displayed within a preset time.

Further, when no available scene to be shown is available under the target simulation display screen, the user is required to create the scene first. Namely, the multi-device plan execution method also comprises the step of responding to the user operation to create the target scene to be shown. Specifically, the multi-device plan execution software responds to user operation to select and display the target simulation display screen; responding to user operation such as dragging operation of a target simulation signal source in at least one simulation signal source, and loading the target simulation signal source in the at least one simulation signal source to a target position in the target simulation display screen so as to generate a target simulation signal source picture area in the target simulation display screen; then, in response to a user operation, for example, triggering a "save" button, the target scene to be shown is generated based on the target simulation display screen and the target signal source picture area (see fig. 9 j). In addition, after the target simulation signal source is loaded, the multi-device plan execution software may also modify the position and size parameters of the target simulation signal source picture area (see fig. 9j) in response to a parameter adjustment operation of the user on the target simulation signal source picture area, for example, a position input operation of the user on the target simulation signal picture area, to change the display position and the display size of the target simulation signal picture area. The position and size parameters here may be, for example, the coordinates of the target simulated signal source picture area, the width and height of the target simulated signal source picture area, and the like.

In addition, it is worth mentioning that the target simulation display screen and the target scene to be displayed may be one or multiple ones. When the number of the two is multiple, the multiple-device plan execution software respectively loads the multiple simulation display screens and the multiple scenes to be displayed in response to multiple operations of the user, and the method is the same as that described above, and is not repeated here.

Furthermore, in other embodiments of the present invention, the plurality of devices include peripherals (also referred to as peripheral devices), such as a body-sensing handle, a VR headset, a voice recognition device, and other human-computer interaction devices. The multi-device plan execution software can also receive a plan trigger instruction sent by a peripheral, trigger and execute the plan according to the plan trigger instruction, and issue a device control instruction to the target device within preset time, so that the device can realize corresponding scene creativity, and the user experience and the participation degree are improved.

In addition, the multi-device execution software can also send a device data acquisition instruction to the multiple devices so that the multiple devices can acquire various data of the multiple devices and transmit the various data to the multi-device execution software or the control center. Specifically, the multi-device execution software can complete real-time acquisition of data of other devices through the acquisition server, so as to monitor the multiple devices in real time. The device data here may comprise, for example, operating state data, alarm data, etc. The operating state data includes, for example, the temperature, the rotational speed, the number of channels, the communication state, and the like of some of the plurality of devices.

According to the embodiment of the invention, the simulation equipment is generated according to the equipment information of the plurality of equipment, the track seeking system is established according to the equipment connection relation and the simulation equipment, the target plan comprising a plurality of scenes to be displayed is displayed according to the equipment control instruction through the track seeking system, the control over the plurality of equipment and the plurality of scenes is realized simultaneously, the problem that the control over the plurality of scenes of a plurality of display screens cannot be realized simultaneously in the prior art is solved, the requirement of the control over the field equipment on personnel is reduced, the investment of control personnel is reduced, so that the field which needs multi-person cooperation and synchronous control originally can be controlled by one person, even unmanned and automatic control can be realized, the field control efficiency and the control quality are improved, and the accuracy of the field control is ensured. In addition, the starting and the execution of the target plan are indirectly triggered through peripheral equipment (also called peripheral equipment), and the participation degree and the experience degree of a user are further improved.

[ second embodiment ]

Referring to fig. 10, a second embodiment of the present invention provides a multi-device plan executing apparatus 400, which is used for implementing the multi-device plan executing method provided in the first embodiment. Specifically, as shown in fig. 10, the multi-device plan executing apparatus 400 includes, for example, a device information acquiring module 410, a simulation device generating module 430, a tracking system establishing module 450, a target plan acquiring module 460, a target plan starting module 470, a target plan presenting module 480, and the like.

The device information obtaining module 410 is configured to obtain respective device information of a plurality of devices of different types, where the plurality of devices include at least one signal source device; a simulation device generating module 430, configured to generate, according to the device information of each of the multiple devices, multiple simulation devices in one-to-one correspondence with the multiple devices; a seek system establishing module 450, configured to establish a seek system according to the device connection relationship and the plurality of simulation devices; a target plan obtaining module 460, configured to obtain a target plan, where the target plan includes multiple scenes to be displayed; a target plan starting module 470, configured to start the target plan; and a target plan presentation module 480, configured to generate a device control instruction based on the target plan and send the device control instruction to the seek system, so that a target device in the multiple devices in the seek system presents the multiple scenes to be presented in the target plan according to the device control instruction.

The device information comprises a device name, a device type, a device model, a device communication mode, a device communication protocol and channel information; the device information of the signal source device further includes a signal source name, a signal source type, a signal source configuration mode, a signal source resolution, a signal source IP address, and a signal source ID.

The specific implementation process and technical effects of each module of the multi-device plan execution apparatus 400 provided by the embodiment of the present invention may refer to the first embodiment, and are not described herein again.

[ third embodiment ]

Referring to fig. 11, a third embodiment of the invention provides a multi-device plan execution system 500. The multi-device protocol execution system includes a memory 530 and a processor 510 coupled to the memory 530. The memory 530 may be, for example, a non-volatile memory having stored thereon a computer program 531. The processor 510 may be, for example, an ARM processor or CPU. The processor 510 executes the multi-device plan execution method in the first embodiment described above when running the computer program 531.

[ fourth example ] A

As shown in fig. 12, a fourth embodiment of the present invention provides a computer-readable storage medium 700. The computer-readable storage medium 700 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 700 has stored thereon computer-executable instructions 710. The computer-readable storage medium 700 may execute the computer-executable instructions 710 by one or more processors or processing devices to implement the multi-device protocol execution method of the first embodiment described above.

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, the division of the units is only one logical division, and the 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 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 skilled 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 (10)

1. A multi-device plan execution method is characterized by comprising the following steps:

acquiring respective device information of a plurality of devices of different types, wherein the plurality of devices comprise at least one signal source device;

generating a plurality of simulation devices in one-to-one correspondence with the plurality of devices according to the device information of the plurality of devices;

establishing a track-seeking system according to the equipment connection relation and the plurality of simulation equipment;

obtaining a target plan, wherein the target plan comprises a plurality of scenes to be displayed;

starting the target plan; and

and generating a device control instruction based on the target plan and sending the device control instruction to the seek system so that the target devices in the multiple devices in the seek system display the multiple scenes to be displayed in the target plan according to the device control instruction.

2. The multi-device protocol execution method according to claim 1, wherein the device information of the plurality of devices includes a device name, a device type, a device model, a device communication method, a device communication protocol, and channel information; the device information of the signal source device further comprises a signal source name, a signal source type, a signal source configuration mode, a signal source resolution, a signal source IP address and a signal source ID.

3. The multi-device protocol execution method of claim 1, wherein the device connection relationship comprises a user-defined connection relationship or a physical connection relationship among the plurality of devices.

4. The multi-device plan execution method according to claim 1, wherein the establishing a seek system according to the device connection relation and the plurality of emulation devices comprises:

loading and displaying the plurality of simulation devices;

connecting the plurality of simulation devices according to the device connection relation to obtain a track-seeking system topological structure; and

connecting the plurality of devices based on the seek system topology to obtain the seek system.

5. The multi-device protocol execution method of claim 1, wherein the plurality of emulation devices comprises at least one emulation display screen; the multi-device plan execution method further includes creating the target plan, where creating the target plan specifically includes:

displaying a plan adding interface;

acquiring a plan name, an execution mode and execution time of the target plan;

selecting a target simulation display screen in at least one simulation display screen corresponding to at least one display screen displaying the scenes to be displayed;

loading a target scene to be displayed in the plurality of scenes to be displayed to the target simulation display screen;

and obtaining the target plan based on the target simulation display screen and the target to-be-displayed display scene.

6. The multi-device protocol execution method of claim 6, wherein the plurality of emulated devices comprises at least one emulated signal source device, each of the emulated signal source devices comprising at least one emulated signal source; the multi-device plan execution method further includes creating the multiple scenes to be shown, where creating the multiple scenes to be shown specifically includes:

selecting the target simulation display screen;

loading a target simulation signal source in the at least one simulation signal source to a target position in the target simulation display screen so as to generate a target simulation signal source picture area in the target simulation display screen;

and generating the target scene to be displayed based on the target simulation display screen and the target signal source picture area.

7. The multi-device protocol execution method of claim 1, wherein the plurality of devices comprise peripheral devices; the initiating the target protocol comprises:

acquiring a plan triggering instruction sent by the peripheral equipment; and

and starting the target plan according to the plan triggering instruction.

8. A multi-device plan execution apparatus, for implementing the multi-device plan execution method according to any one of claims 1 to 8 and comprising:

the device information acquisition module is used for acquiring respective device information of a plurality of devices with different types, wherein the plurality of devices comprise at least one signal source device;

the simulation equipment generation module is used for generating a plurality of simulation equipment which are in one-to-one correspondence with the plurality of equipment according to the equipment information of the plurality of equipment;

the system comprises a plurality of simulation devices, a channel searching system establishing module and a channel searching system establishing module, wherein the simulation devices are used for simulating the channel searching system;

the target plan obtaining module is used for obtaining a target plan, and the target plan comprises a plurality of scenes to be displayed;

the target plan starting module is used for starting the target plan; and

and the target plan display module is used for generating a device control instruction based on the target plan and sending the device control instruction to the seek system so that the target devices in the multiple devices in the seek system can display the multiple scenes to be displayed in the target plan according to the device control instruction.

9. A multi-device protocol execution system, comprising: a processor and a memory coupled to the processor; wherein the memory stores a computer program that, when executed by the processor, performs the multi-device protocol execution method of any of claims 1-8.

10. A computer-readable storage medium, characterized in that it is a non-volatile memory and stores computer-executable instructions for performing the multi-device protocol execution method of any of claims 1 to 8.

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