CN112153244A - Studio making business process management control method and system - Google Patents

Abstract

The invention discloses a studio making business process management control method and a studio making business process management control system, wherein the method comprises the following steps: configuring the device parameters of the devices required by the application scene into different parameter files according to different application scenes; establishing calling instructions of different parameter files and establishing a command set for completing each application scene; the control mode of the command set is a macro application mode, and the command set is composed of a plurality of calling instructions according to a preset equipment calling sequence; and triggering a command set of the application scene to be completed, and calling the parameter files of the corresponding equipment by calling instructions in the command set in sequence to complete the required scene switching. The invention combines the call commands of the parameter files according to the application sequences of different scenes to form an independent command, thereby realizing the automatic execution of a group of subcommands; the scene one-key switching, the group switching and other user-defined functions are completed through the command set, so that the user operation can be simplified, and the unified control is completed.

Description

Studio making business process management control method and system

Technical Field

The invention relates to the technical field of business process management, in particular to a studio making business process management control method and a studio making business process management control system.

Background

The high-definition, intelligent and large-scale all-media interactive studio cluster can share a video-audio system, a communication system, a synchronization system, a monitoring system, a control system and the like, can realize that a plurality of studios can finish the production of the same program together, and the innovative and flexible television station program content production method is more and more adopted by television stations and new studios built.

The studio group is generally composed of functional devices for performing, producing, receiving, transmitting, scheduling, recording, and the like, and generally involves devices of a plurality of manufacturers. When different program contents are produced, such as news programs and art programs, the requirements on the working parameters of the equipment are very different, such as lighting, picture monitoring layout, switching stations, cameras and the like; if each program is used after adjusting the equipment parameters one by one, the working efficiency is greatly reduced, and the possibility of mismatching is likely to occur in the parameter configuration process, so that the program production is affected.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a studio making business process management control method and a studio making business process management control system.

The invention discloses a studio making business process management control method, which comprises the following steps:

configuring device parameters of devices required by the application scene into different parameter files according to different application scenes;

establishing calling instructions of different parameter files and establishing a command set for completing each application scene; the control mode of the command set is a macro application mode, and the command set is composed of a plurality of calling instructions according to a preset device calling sequence;

and triggering a command set of the application scene to be completed, wherein the calling instruction in the command set sequentially calls the parameter files of the corresponding equipment to complete the required scene switching.

As a further improvement of the present invention, the application scenes include sports programs, news programs, and art programs, and the devices include lighting devices, picture monitoring layout devices, switching stations, and cameras.

As a further improvement of the invention, the command set is bound to a system event or a software and hardware panel, and then is made into a command set which can be manually executed or triggered by an event.

As a further improvement of the invention, when the scene is switched, if the new application scene has no corresponding command set; then:

configuring the device parameters of the devices required by the new application scene into different parameter files;

and establishing calling instructions of different parameter files and establishing a command set for completing a new application scene.

As a further improvement of the present invention,

if the application scene A has the corresponding command set A, the equipment and the parameter files of the equipment required by the application scene A are the parameter file a1 of the equipment a, the parameter file b1 of the equipment b and the parameter file c1 of the equipment c in sequence;

if the application scene B has a corresponding command set B, the equipment and the parameter files of the equipment required for completing the application scene B are the parameter file a2 of the equipment a, the parameter file c1 of the equipment c and the parameter file B2 of the equipment B in sequence;

then, the scenario between application scenario a and application scenario B switches to:

executing a calling instruction of the command set A, and calling a parameter file a1 of the equipment a, a parameter file b1 of the equipment b and a parameter file c1 of the equipment c in sequence to finish the application scenario A;

after the application scene A is finished, triggering a command set B through a system event or a key;

and executing the calling instruction of the command set B, and calling the parameter file a2 of the device a, the parameter file c1 of the device c and the parameter file B2 of the device B in sequence to complete the application scene B.

The invention also discloses a studio making business process management control system, which comprises:

the configuration module is used for configuring the device parameters of the devices required by the application scenes into different parameter files according to different application scenes;

the establishing module is used for establishing calling instructions of different parameter files and establishing a command set for completing each application scene; the control mode of the command set is a macro application mode, and the command set is composed of a plurality of calling instructions according to a preset device calling sequence;

and the triggering module is used for triggering a command set of an application scene to be completed, and calling the parameter files of the corresponding equipment in sequence by using the calling instruction in the command set to complete the required scene switching.

As a further improvement of the present invention, the application scenes include sports programs, news programs, and art programs, and the devices include lighting devices, picture monitoring layout devices, switching stations, and cameras.

As a further improvement of the invention, the command set is bound to a system event or a software and hardware panel, and then is made into a command set which can be manually executed or triggered by an event.

As a further improvement of the invention, when the scene is switched, if the new application scene has no corresponding command set; then:

the configuration module is further used for configuring the device parameters of the devices required by the new application scene into different parameter files;

the establishing module is also used for establishing calling instructions of different parameter files and establishing a command set for completing a new application scene.

As a further improvement of the present invention,

if the application scene A has the corresponding command set A, the equipment and the parameter files of the equipment required by the application scene A are the parameter file a1 of the equipment a, the parameter file b1 of the equipment b and the parameter file c1 of the equipment c in sequence;

if the application scene B has a corresponding command set B, the equipment and the parameter files of the equipment required for completing the application scene B are the parameter file a2 of the equipment a, the parameter file c1 of the equipment c and the parameter file B2 of the equipment B in sequence;

then, the scenario between application scenario a and application scenario B switches to:

executing a calling instruction of the command set A, and calling a parameter file a1 of the equipment a, a parameter file b1 of the equipment b and a parameter file c1 of the equipment c in sequence to finish the application scenario A;

after the application scene A is finished, triggering a command set B through a system event or a key;

and executing the calling instruction of the command set B, and calling the parameter file a2 of the device a, the parameter file c1 of the device c and the parameter file B2 of the device B in sequence to complete the application scene B.

Compared with the prior art, the invention has the beneficial effects that:

the invention adopts a macro application mode, configures the equipment parameters into independent parameter files according to the application, and then combines the call commands of the parameter files according to the application sequence of different scenes to form an independent command, thereby realizing the automatic execution of a group of subcommands; the scene one-key switching, the group switching and other user-defined functions are completed through the command set, so that the user operation can be simplified, and the unified control is completed.

Drawings

Fig. 1 is a flowchart of a studio production business process management control method according to an embodiment of the present invention;

FIG. 2 is a block diagram of a studio authoring business process management control system according to an embodiment of the present invention;

FIG. 3 is a diagram illustrating a comparison between a conventional mode of management control and a mode of management control according to the present invention;

fig. 4 is a specific flowchart of a studio production business process management control method according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

The invention is described in further detail below with reference to the attached drawing figures:

as shown in fig. 1, the present invention provides a studio making business process management control method, which includes:

step 1, configuring equipment parameters of equipment required by an application scene into different parameter files according to different application scenes;

wherein,

the application scenes comprise sports programs, news programs and art programs, and the sports programs can comprise sports programs 1, 2 and 3; the devices include lighting devices, picture monitoring layout devices, switching stations, cameras, and the like.

The completion of the application scenario A needs to be realized by the device a, the device b and the device c in sequence, and the parameter file of the device a required by the application scenario A is a1, the parameter file of the device b required by the application scenario A is b1, and the parameter file of the device c required by the application scenario A is c 1;

the completion of the application scene B needs to be realized by the equipment a, the equipment c and the equipment B in sequence, and the parameter file of the equipment a required by the application scene B is a2, the parameter file of the equipment c required by the application scene B is c1, and the parameter file of the equipment B required by the application scene B is B2;

for example:

the completion of the sports program 1 needs to be realized by sequentially arranging lighting equipment, a switching station and a camera, wherein a parameter file of the lighting equipment required by the sports program 1 is a1, a parameter file of the switching station required by the sports program 1 is b1, and a parameter file of the camera required by the sports program 1 is c 1;

the completion of the sports program 2 needs to be realized by sequentially using lighting equipment, a camera and a switching station, wherein a parameter file of the lighting equipment required by the sports program 2 is a2, a parameter file of the camera required by the sports program 2 is c2, and a parameter file of the switching station required by the sports program 2 is b 1;

and so on.

Step 2, establishing calling instructions of different parameter files and establishing a command set for completing each application scene;

the command set is composed of a plurality of calling instructions according to a preset device calling sequence, the control mode of the command set is a 'macro' application mode, the system provides visual macro command editing and is completely opened for a user, the user can define own macro instructions according to requirements, and the stored 'macro' instructions can be called by system events and triggered by panel keys.

Further, the application scenario a corresponds to the command set a, and the devices and the parameter files of the devices required for completing the application scenario a are, in order, the parameter file a1 of the device a, the parameter file b1 of the device b, and the parameter file c1 of the device c; then, the command set a includes a call instruction a1 calling the parameter file a1, a call instruction b1 calling the parameter file b1, and a call instruction c1 calling the parameter file c1, and the three call instructions have a certain execution sequence in the command set, that is, the call instruction a1 is executed first, then the call instruction b1 is executed, and finally the call instruction c1 is executed.

For example:

the sports program 1 corresponds to the command set A, and equipment parameter files required for completing the sports program 1 are a lighting parameter file a1, a switching station parameter file b1 and a camera parameter file c1 in sequence; then, the command set a includes a call instruction a1 for calling the parameter file a1, a call instruction b1 for calling the parameter file b1, and a call instruction c1 for calling the parameter file c1, and the three call instructions have a certain execution sequence in the command set, that is, the call instruction a1 is executed to start the light, the call instruction b1 is executed to start the switching station, and the call instruction c1 is executed to start the camera.

Step 3, triggering a command set of the application scene to be completed, and calling the parameter files of the corresponding equipment in sequence by calling instructions in the command set to complete the required scene switching;

wherein,

if the application scene A corresponds to the command set A, the equipment and the parameter files of the equipment required by the application scene A are the parameter file a1 of the equipment a, the parameter file b1 of the equipment b and the parameter file c1 of the equipment c in sequence;

if the application scene B has a corresponding command set B, the equipment and the parameter files of the equipment required for completing the application scene B are the parameter file a2 of the equipment a, the parameter file c1 of the equipment c and the parameter file B2 of the equipment B in sequence;

then, the scenario between application scenario a and application scenario B switches to:

executing a calling instruction of the command set A, and calling a parameter file a1 of the equipment a, a parameter file b1 of the equipment b and a parameter file c1 of the equipment c in sequence to finish the application scenario A;

after the application scene A is finished, triggering a command set B through a system event or a key;

and executing the calling instruction of the command set B, and calling the parameter file a2 of the device a, the parameter file c1 of the device c and the parameter file B2 of the device B in sequence to complete the application scene B.

Step 4, when the scene switching is carried out in the step 3, if the new application scene does not have a corresponding command set; the steps 1 and 2 are returned.

The invention adopts a macro application mode, configures the equipment parameters into independent parameter files according to the application, and then combines the call commands of the parameter files according to the application sequence of different scenes to form an independent command, thereby realizing the automatic execution of a group of subcommands; the scene one-key switching, the group switching and other user-defined functions are completed through the command set, so that the user operation can be simplified, and the unified control is completed.

The present invention can make the device parameters or signal routes, etc. that need to be modified and adjusted into a "command set" that can be manually executed or event triggered. After the command set is bound to a system event or a software and hardware panel, functional modules such as one-key adjustment and the like can be realized, and one-key scene switching functions which are not produced by the same program can be finished; the one-key modification function of the equipment parameters can be completed; matrix "cut-to-cluster" functions can be performed, such as: a keyed television wall form change, AFV functionality for switchboards and sound consoles, JoyStick functionality, and so on.

As shown in fig. 3, the original operation mode: the change of each device needs to be performed sequentially; the new mode only needs to define each step in advance to form an execution command, and then different commands are combined according to the scene requirements. The specific implementation flow is shown in fig. 4; the mode of the command set is particularly advantageous for some jobs which need to be executed repeatedly. The generated command set may be triggered by various events, such as key events, various triggering events within the system, and the like. The important point is that the command set is completely defined by the user himself, and any combination of device parameter variations is desired.

As shown in fig. 2, the present invention provides a studio making business process management control system, which includes:

a configuration module for implementing the step 1;

the establishing module is used for realizing the step 2;

and the triggering module is used for realizing the step 3.

Example (b):

the system device resources are the basis for building the command set. All the equipment resources applied in the system are arranged according to major categories, minor categories and specific models. The equipment resource type library is designed into a tree structure, and resource retrieval work can be completed through the type library.

The control system is used for setting and adjusting the common parameters of the equipment in the system. Such as: the monitor can control monitoring equipment such as a large screen, a monitor, a television and the like; the device can be controlled to switch between HDR/SDR; the screen segmentation device may be controlled to make calls, etc. The equipment is added in the system equipment library, and the controllable parameters can be set in various forms.

AFV functions of the switch station and the sound console:

and the audio clipper of the sound console is switched and linked along with the video source of the switching console. One is the AFV between the switching station and the sound mixing station, and the other is the AFV of the video matrix and the audio matrix.

The AFV of the video matrix and the audio matrix is realized by a matrix correlation method. In the matrix configuration module, the source and destination of a matrix may be separately set to be associated with other matrices. After the relationship configuration is completed, when the video matrix is switched, the system simultaneously issues a corresponding switching instruction to the Audio matrix according to the binding relationship, so that the Audio follow video function of the video matrix is realized.

In addition to the above, in the panel configuration module, the AFV function of the audio/video matrix may be implemented by providing a plurality of functions to a single panel key.

The invention has the advantages that:

the macro application can simplify the system operation, and brings great convenience to users in use:

1. the scene forming configuration file is stored, so that repeated labor is reduced;

2. the scene can be predefined, and the work can be dried in advance;

3. scene switching can be switched by one key of a software panel.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A studio making business process management control method is characterized by comprising the following steps:

configuring device parameters of devices required by the application scene into different parameter files according to different application scenes;

establishing calling instructions of different parameter files and establishing a command set for completing each application scene; the control mode of the command set is a macro application mode, and the command set is composed of a plurality of calling instructions according to a preset device calling sequence;

and triggering a command set of the application scene to be completed, wherein the calling instruction in the command set sequentially calls the parameter files of the corresponding equipment to complete the required scene switching.

2. The method of claim 1, wherein the application scenes include sports programs, news programs, and art programs, and the devices include lighting devices, picture viewing layout devices, switchboards, and cameras.

3. The method of claim 1, wherein the command set is bound to a system event or a software and hardware panel and is made into a command set that can be manually executed or event triggered.

4. The method of claim 1, wherein, at scene change, if the new application scene has no corresponding command set; then:

configuring the device parameters of the devices required by the new application scene into different parameter files;

and establishing calling instructions of different parameter files and establishing a command set for completing a new application scene.

5. The method according to any one of claims 1 to 4,

if the application scene A has the corresponding command set A, the equipment and the parameter files of the equipment required by the application scene A are the parameter file a1 of the equipment a, the parameter file b1 of the equipment b and the parameter file c1 of the equipment c in sequence;

if the application scene B has a corresponding command set B, the equipment and the parameter files of the equipment required for completing the application scene B are the parameter file a2 of the equipment a, the parameter file c1 of the equipment c and the parameter file B2 of the equipment B in sequence;

then, the scenario between application scenario a and application scenario B switches to:

executing a calling instruction of the command set A, and calling a parameter file a1 of the equipment a, a parameter file b1 of the equipment b and a parameter file c1 of the equipment c in sequence to finish the application scenario A;

after the application scene A is finished, triggering a command set B through a system event or a key;

and executing the calling instruction of the command set B, and calling the parameter file a2 of the device a, the parameter file c1 of the device c and the parameter file B2 of the device B in sequence to complete the application scene B.

6. A studio production business process management control system is characterized by comprising:

the configuration module is used for configuring the device parameters of the devices required by the application scenes into different parameter files according to different application scenes;

the establishing module is used for establishing calling instructions of different parameter files and establishing a command set for completing each application scene; the control mode of the command set is a macro application mode, and the command set is composed of a plurality of calling instructions according to a preset device calling sequence;

and the triggering module is used for triggering a command set of an application scene to be completed, and calling the parameter files of the corresponding equipment in sequence by using the calling instruction in the command set to complete the required scene switching.

7. The system of claim 6, wherein the application scenes include sports programs, news programs, and art programs, and the devices include lighting devices, picture viewing layout devices, switchboards, and cameras.

8. The system of claim 6, wherein the command set is bound to system events or software and hardware panels and is made into a command set that can be manually executed or event triggered.

9. The system of claim 6, wherein, at scene change, if the new application scene has no corresponding command set; then:

the configuration module is further used for configuring the device parameters of the devices required by the new application scene into different parameter files;

the establishing module is also used for establishing calling instructions of different parameter files and establishing a command set for completing a new application scene.

10. The system according to any one of claims 6 to 9,

if the application scene A has the corresponding command set A, the equipment and the parameter files of the equipment required by the application scene A are the parameter file a1 of the equipment a, the parameter file b1 of the equipment b and the parameter file c1 of the equipment c in sequence;

if the application scene B has a corresponding command set B, the equipment and the parameter files of the equipment required for completing the application scene B are the parameter file a2 of the equipment a, the parameter file c1 of the equipment c and the parameter file B2 of the equipment B in sequence;

then, the scenario between application scenario a and application scenario B switches to:

executing a calling instruction of the command set A, and calling a parameter file a1 of the equipment a, a parameter file b1 of the equipment b and a parameter file c1 of the equipment c in sequence to finish the application scenario A;

after the application scene A is finished, triggering a command set B through a system event or a key;

and executing the calling instruction of the command set B, and calling the parameter file a2 of the device a, the parameter file c1 of the device c and the parameter file B2 of the device B in sequence to complete the application scene B.

Images