CN115988156A - Method and system for controlling display scheduling by distributed structure - Google Patents
Method and system for controlling display scheduling by distributed structure Download PDFInfo
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- CN115988156A CN115988156A CN202211715988.0A CN202211715988A CN115988156A CN 115988156 A CN115988156 A CN 115988156A CN 202211715988 A CN202211715988 A CN 202211715988A CN 115988156 A CN115988156 A CN 115988156A
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Abstract
The invention provides a method for controlling display scheduling by a distributed structure, which comprises the following steps of obtaining video signal sources of a plurality of places; transmitting a video signal source to a data center server through a network; the central control equipment acquires a video signal source equipment list and acquires playing equipment through a data center server; the playing device receives the image information of the data center server processed by the central control device and displays the image information on the display device; transmitting the control instruction data to a data center server; the video signal source receives instruction information of a data center server, and a corresponding system are used for solving the technical problems that a user can only switch a signal source in a main screen display area and zoom pictures, the arrangement and combination display and the history record of multiple signal sources do not have complete module record, and equipment behind the signal sources cannot be effectively controlled, so that the limitation of controlling display content and the control difficulty of subsequent equipment are caused.
Description
Technical Field
The invention mainly relates to the technical field of monitoring, in particular to a method and a system for controlling display scheduling by a distributed structure.
Background
Modern society has already met the intelligent era, and various image display technologies are constantly refreshing people's lives. In the prior art, a plurality of signal source picture contents are often required to be displayed in one main screen, and a user can switch the main screen pictures and zoom the signal source pictures by selecting a single signal or a plurality of signal sources.
However, in the conventional technology, a user can only switch signal sources and zoom pictures in a main screen display area, there is no complete module record for the arrangement and combination display and history record of multiple signal sources, and the equipment behind the signal sources cannot be effectively controlled, thereby causing the problems of limitation of controlling display contents and difficulty in controlling subsequent equipment.
Disclosure of Invention
Technical problem to be solved by the invention
The invention provides a method and a system for controlling display scheduling by a distributed structure, which are used for solving the technical problems in the background technology.
Technical scheme
In order to achieve the purpose, the technical scheme provided by the invention is as follows: a method for controlling display scheduling in a distributed architecture includes the steps of,
acquiring video signal sources of a plurality of places;
transmitting a video signal source to a data center server through a network;
the central control equipment acquires a video signal source equipment list and playing equipment through the data center server, updates and sets video signal source information through the acquired data, and generates a control instruction for the video signal source;
the playing device receives the image information of the data center server processed by the central control device, displays the image information on the display device, and changes the specific content and information displayed on the playing device by processing the data of the central control device;
transmitting the control instruction data to a data center server, and carrying out integration, analysis and division processing on the control instruction data;
and the video signal source receives the instruction information of the data center server and performs operation corresponding to the instruction through an internal instruction.
Further, the step of transmitting the control instruction data produced by the central control equipment to the data center server and carrying out integration, analysis and division processing on the control instruction data comprises the following steps;
the playing equipment acquires the stored scene information of the data center server from the data center server, and defaults to load the latest scene information on the wall;
selecting a certain signal source picture on a main screen of the central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to perform instruction control on the selected signal source picture;
in the central control setting, a user integrates and adds scene names to signal source list information on a main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to a data center server through a network to be stored;
in the central control equipment, a user can acquire scene list information from a data center server, and one-key switching of a main screen, namely a playing picture, is performed by selecting the scene information;
in a signal source equipment list acquired by a user from a data center server in the center control equipment, switching of a main screen image is performed by dragging a real-time preview image of the signal source equipment to enter a main screen window area of the center control.
Further, selecting a certain signal source picture on the main screen of the central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to perform instruction control on the selected signal source picture specifically comprises the following steps;
selecting a signal source equipment picture on a main screen;
logically judging whether the selected signal source equipment picture is connected with the central control equipment through a network;
when a selected signal source device picture is connected with the central control device through a network, the central control device controls the window area to be started, and a user can generate different control instructions according to field requirements and the type of the selected signal source device;
the signal source equipment control instruction generated in the step is sent to a data center server through a network, and the data center server forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives a control instruction from the data center server through the network and executes different control operations.
A system for controlling display scheduling in a distributed architecture includes
A data acquisition module: the system comprises a data processing module, a video signal acquisition module, a video signal processing module and a video signal processing module, wherein the data processing module is used for acquiring video signal sources of a plurality of places, receiving a control instruction of the data processing module and further performing corresponding video acquisition and action execution;
a data storage module: transmitting the video data obtained by the video data acquisition module to a video data storage module through a network;
a data processing module: acquiring an equipment list in a data storage module, acquiring data information of playing equipment, updating and setting video signal source information through the acquired data, and generating a control instruction for a video signal source;
a display module: and the data storage module is connected with the display device, receives the image information processed by the data processing module, displays the image information on the display device, and changes the specific content and information displayed on the display device by receiving the data information processed by the data processing module.
Further, the display module acquires the stored scene information from the data storage module, and defaults to load the latest scene information on the wall;
selecting a certain signal source picture through the data processing module, controlling a window area through the data processing module to click a control button, and selecting to perform instruction control on the selected signal source picture;
in the setting of the data processing module, a user integrates and adds scene names to signal source list information on a main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to the data storage module through a network for storage;
the user can control the data processing module to acquire the scene list information from the data storage module, and one-key switching of the playing picture of the main screen is performed by selecting the scene information;
the switching of the main screen picture can be performed by dragging the signal source device real-time preview picture to enter the central control main screen window area from the signal source device list acquired by the user from the data storage module.
Further, selecting a signal source equipment picture on the display module;
logically judging whether the selected signal source equipment picture is connected with the data processing module through a network;
when the selected signal source equipment picture is connected with the data processing module through the network, the data processing module controls the window area to be started, a user can generate different control instructions according to the field requirement and the type of the selected signal source equipment,
the signal source equipment control instruction generated in the step is sent to a data storage module through a network, and the data storage module forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives the control instruction from the data storage module through the network and executes different control operations.
Advantageous effects
Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:
the invention has reasonable design, and provides the method and the system for the display control scheduling of the distributed structure, which can carry out random arrangement and combination on a plurality of signal sources through the central control equipment by a user and store the signal sources into the data center to be stored into the scene information. When a user selects signal source equipment, signal source control instruction information is selected, and a selected control instruction such as display content switching, equipment posture adjustment and the like is sent to the selected signal source equipment through a network, so that independent real-time control over the selected signal source equipment is realized.
Drawings
FIG. 1 is a system framework diagram of the present invention.
Detailed Description
In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in many different forms and are not limited to the embodiments described herein, but rather are provided for the purpose of providing a more thorough disclosure of the invention.
In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "page", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.
Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.
In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," "provided," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
Examples
Referring to fig. 1, a method for controlling display scheduling in a distributed architecture includes the steps of acquiring video signal sources of a plurality of locations;
transmitting a video signal source to a data center server through a network;
the central control equipment acquires a video signal source equipment list and playing equipment through the data center server, updates and sets video signal source information through the acquired data, and generates a control instruction for the video signal source;
the playing device receives the image information of the data center server processed by the central control device, displays the image information on the display device, and changes the specific content and information displayed on the playing device by processing the data of the central control device;
transmitting the control instruction data to a data center server, carrying out integration, analysis and division processing on the control instruction data, dividing different data into storage information, and carrying out data persistence storage and data forwarding processing on the control information through logic judgment;
and the video signal source receives the instruction information of the data center server and performs operation corresponding to the instruction through an internal instruction.
Transmitting control instruction data produced by the central control equipment to a data center server, and carrying out integration, analysis and division processing on the control instruction data;
the playing equipment acquires the stored scene information of the data center server from the data center server, and defaults to load the latest scene information on the wall;
selecting a certain signal source picture on a main screen of the central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to perform instruction control on the selected signal source picture;
in the central control setting, a user integrates and adds scene names to the signal source list information on the main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to a data center server through a network to be stored;
in the central control equipment, a user can acquire scene list information from a data center server, and one-key switching of a main screen which is a playing picture is performed by selecting the scene information;
in a signal source equipment list acquired by a user from a data center server in the center control equipment, switching of a main screen image is performed by dragging a real-time preview image of the signal source equipment to enter a main screen window area of the center control.
Selecting a certain signal source picture on a main screen of central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to perform instruction control on the selected signal source picture;
selecting a signal source equipment picture on a main screen;
logically judging whether the selected signal source equipment picture is connected with the central control equipment through a network;
when a selected signal source device picture is connected with a central control device through a network, the central control device controls the window area to be started, and a user can generate different control instructions according to the field requirements and the selected signal source device type, for example, the camera type can generate control instructions such as pan-tilt control, focus and focal length, or the playing terminal type can generate control instructions such as playing content switching, volume adjustment and startup and shutdown;
the signal source equipment control instruction generated in the step is sent to a data center server through a network, and the data center server forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives a control instruction from the data center server through the network and executes different control operations.
The embodiment provides a method for display control scheduling of a distributed structure, wherein a user can randomly arrange and combine multiple signal sources through central control equipment and store the multiple signal sources in a data center to store scene information, when the user operates later, the user can quickly and accurately select the scene information which is stored in the data center before, the quick operation of main screen display is realized, and therefore the complicated operation and limitation of control display content are broken through. When a user selects signal source equipment, signal source control instruction information is selected, and a selected control instruction such as display content switching, equipment posture adjustment and the like is sent to the selected signal source equipment through a network, so that independent real-time control over the selected signal source equipment is realized.
A system for controlling display scheduling in a distributed architecture includes
A data acquisition module: the system comprises a data processing module, a video signal acquisition module, a video signal processing module and a video signal processing module, wherein the data processing module is used for acquiring video signal sources of a plurality of places, receiving a control instruction of the data processing module and further performing corresponding video acquisition and action execution;
a data storage module: transmitting the video data obtained by the video data acquisition module to a video data storage module through a network;
a data processing module: acquiring a device list in a data storage module, acquiring data information of playing devices, updating and setting video signal source information through the acquired data, and generating a control instruction for a video signal source;
a display module: and the data storage module is connected with the display device, receives the image information processed by the data processing module, displays the image information on the display device, and changes the specific content and information displayed on the display device by receiving the data information processed by the data processing module.
The display module acquires the stored scene information from the data storage module, and defaults to load the latest scene information on the wall;
selecting a certain signal source picture through the data processing module, controlling a window area through the data processing module to click a control button, and selecting to perform instruction control on the selected signal source picture;
in the setting of the data processing module, a user integrates and adds scene names to signal source list information on a main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to the data storage module through a network for storage;
the user can control the data processing module to acquire the scene list information from the data storage module, and one-key switching of the playing picture of the main screen is performed by selecting the scene information;
the switching of the main screen picture can be performed by dragging the signal source device real-time preview picture to enter the central control main screen window area from the signal source device list acquired by the user from the data storage module.
Selecting a signal source equipment picture on a display module;
logically judging whether the selected signal source equipment picture is connected with the data processing module through a network;
when the selected signal source equipment picture is connected with the data processing module through the network, the data processing module controls the window area to be started, a user can generate different control instructions according to the field requirements and the type of the selected signal source equipment,
the signal source equipment control instruction generated in the step is sent to a data storage module through a network, and the data storage module forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives the control instruction from the data storage module through the network and executes different control operations.
The above-mentioned embodiments only express a certain implementation mode of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which are within the protection scope of the present invention; therefore, the protection scope of the present patent should be subject to the appended claims.
Claims (6)
1. A method for controlling display scheduling by a distributed structure is characterized in that: comprises the following steps of (a) carrying out,
acquiring video signal sources of a plurality of places;
transmitting a video signal source to a data center server through a network;
the central control equipment acquires a video signal source equipment list and playing equipment through the data center server, updates and sets video signal source information through the acquired data, and generates a control instruction for the video signal source;
the playing device receives the image information of the data center server processed by the central control device, displays the image information on the display device, and changes the specific content and information displayed on the playing device by processing the data of the central control device;
transmitting the control instruction data to a data center server, and carrying out integration, analysis and division processing on the control instruction data;
and the video signal source receives the instruction information of the data center server and performs operation corresponding to the instruction through an internal instruction.
2. The method of claim 1, wherein the method comprises: transmitting control instruction data produced by the central control equipment to a data center server, and carrying out integration, analysis and division processing on the control instruction data;
the playing equipment acquires the stored scene information of the data center server from the data center server, and defaults to load the last scene information on the wall;
selecting a certain signal source picture on a main screen of the central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to carry out instruction control on the selected signal source picture;
in the central control setting, a user integrates and adds scene names to signal source list information on a main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to a data center server through a network to be stored;
in the central control equipment, a user can acquire scene list information from a data center server, and the main screen is switched by one key by selecting the scene information;
in a signal source equipment list acquired by a user from a data center server in the center control equipment, the user can carry out the switching of the main screen picture by dragging the real-time preview picture of the signal source equipment to enter the area of the main screen window of the center control.
3. The method of claim 1, wherein the method comprises: selecting a certain signal source picture on a main screen of central control equipment, clicking a control button through a control window area of the central control equipment, and selecting to perform instruction control on the selected signal source picture;
selecting a signal source equipment picture on a main screen;
logically judging whether the selected signal source equipment picture is connected with the central control equipment through a network;
when a selected signal source equipment picture is connected with the central control equipment through a network, the central control equipment controls the window area to be started, and a user can generate different control instructions according to the field requirements and the type of the selected signal source equipment;
the signal source equipment control instruction generated in the step is sent to a data center server through a network, and the data center server forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives a control instruction from the data center server through the network and executes different control operations.
4. A system for controlling display scheduling by a distributed architecture is characterized in that: comprises that
A data acquisition module: the system comprises a data processing module, a video signal acquisition module, a video signal processing module and a video signal processing module, wherein the data processing module is used for acquiring video signal sources of a plurality of places, receiving a control instruction of the data processing module and further performing corresponding video acquisition and action execution;
a data storage module: transmitting the video data obtained by the video data acquisition module to a video data storage module through a network;
a data processing module: acquiring an equipment list in a data storage module, acquiring data information of playing equipment, updating and setting video signal source information through the acquired data, and generating a control instruction for a video signal source;
a display module: and the data storage module is connected with the display device, receives the image information processed by the data processing module, displays the image information on the display device, and changes the specific content and information displayed on the display device by receiving the data information processed by the data processing module.
5. The system of claim 4, wherein the system further comprises: the display module acquires the stored scene information from the data storage module, and defaults to load the latest scene information on the wall;
selecting a certain signal source picture through the data processing module, controlling a window area through the data processing module to click a control button, and selecting to perform instruction control on the selected signal source picture;
in the setting of the data processing module, a user integrates and adds scene names to signal source list information on a main screen window area by clicking a storage button to generate scene information, and the scene information is transmitted to the data storage module through a network for storage;
the user can control the data processing module to acquire the scene list information from the data storage module, and one-key switching of the playing picture of the main screen is performed by selecting the scene information;
the switching of the main screen picture can be performed by dragging the signal source device real-time preview picture to enter the central control main screen window area from the signal source device list acquired by the user from the data storage module.
6. The system of claim 4, wherein the system is further configured to: selecting a signal source equipment picture on a display module;
logically judging whether the selected signal source equipment picture is connected with the data processing module through a network or not;
when the selected signal source equipment picture is connected with the data processing module through the network, the data processing module controls the window area to be started, a user can generate different control instructions according to the field requirements and the type of the selected signal source equipment,
the signal source equipment control instruction generated in the step is sent to a data storage module through a network, and the data storage module forwards the control instruction information to corresponding signal source equipment;
the signal source equipment receives the control instruction from the data storage module through the network and executes different control operations.
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