CN114157910A - Video non-editing system and video non-editing method - Google Patents

Abstract

The application discloses a video non-editing system and a video non-editing method, wherein the video non-editing system comprises: the non-editing server is used for generating a corresponding proxy video file according to the video material file and performing non-editing operation based on the proxy video file; the resolution ratio of the video material file is higher than the preset resolution ratio; and the rendering server is in communication connection with the non-editing server and is used for rendering the video material file according to the result of the non-editing operation. According to the embodiment of the application, the cloud non-editing operation is carried out in a mode of remotely accessing the non-editing server, so that the time and the economic cost of a user in the post-processing of the high-resolution video can be greatly reduced; the corresponding proxy video file is generated according to the video material file, and the proxy video file is used for post-processing based on the proxy video file, so that the load of a non-editing server is reduced, and the efficiency of non-editing operation of the high-resolution video material file is improved.

Description

Video non-editing system and video non-editing method

Technical Field

The invention relates to the technical field of non-editing, in particular to a video non-editing system and a video non-editing method.

Background

With the improvement of technological progress, people have higher and higher requirements for high-resolution contents. The popularity of 8K devices in recent years has led to an increasing number of non-professionals choosing an 8K camera for video capture. But it also raises a problem that most machines with insufficient performance for users can perform post-processing on high-resolution video material files (e.g. 8K-resolution video material). A hardware device and professional post software which can meet the requirement of high-resolution video material file processing are high in cost for non-professional users. And the existing method for processing by using hardware equipment for processing high-resolution video material files is not efficient.

The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.

Disclosure of Invention

By providing the video non-editing system and the video non-editing method, the embodiment of the application aims to reduce the cost of non-editing operation of the high-resolution video material file and improve the efficiency of non-editing operation of the high-resolution video material file.

The embodiment of the application provides a video non-editing system, which comprises:

the non-editing server is used for generating a corresponding proxy video file according to the video material file and performing non-editing operation based on the proxy video file; the resolution ratio of the video material file is higher than the preset resolution ratio; and

and the rendering server is in communication connection with the non-editing server and is used for rendering the video material file according to the result of the non-editing operation.

In some embodiments, the non-coding server includes a format conversion module, and the format conversion module is configured to convert the video material file into a to-be-processed material file in a preset format suitable for non-coding software;

the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

In some embodiments, the video non-editing system further includes a material library server, communicatively connected to the rendering server and the non-editing server, and configured to store a video finished file obtained by rendering the video material file by the proxy video file and the rendering server;

the material library server comprises a video material management module, and the video material management module is used for adding, modifying and deleting the material file to be processed and/or the video finished product file.

In some embodiments, the material library server further includes a synchronous deletion module, configured to delete the proxy video file corresponding to the material file to be processed when the material file to be processed is deleted.

In some embodiments, the build server further comprises a build module, and the build module is configured to build a project file in an xml format.

In some embodiments, the non-compilation server further comprises a non-compilation operation module comprising an import module and a clipping module;

the import module is used for adding the proxy video file in the material library server into the project file in the extensible markup language format;

the clipping module is used for clipping the proxy video file.

In some embodiments, the non-editing server further comprises a login authentication module, and the login authentication module is used for collecting login information sent by a user through terminal equipment;

the login information comprises: at least one of user personal information, user material library information and non-editing project document library information.

In some embodiments, the non-coding server and the material library server further include a preview module, configured to play the proxy video file in the non-coding server with a code rate lower than a preset code rate threshold, or play the video finished file in the material library server with a code rate lower than a preset code rate threshold.

The application also provides a video non-editing method, wherein the video non-editing system comprises a non-editing server, a rendering server and a material library server, and the video non-editing method comprises the following steps:

the non-editing server generates a corresponding proxy video file according to the video material file and performs non-editing operation based on the proxy video file;

the rendering server renders the video material file according to the non-editing operation result and sends the rendered video finished product file to the material library server;

and storing the proxy video file and the video finished product file through the material library server.

In some embodiments, before the step of generating, by the non-editing server, a corresponding proxy video file according to the video material file, and performing a non-editing operation based on the proxy video file, the method further includes:

the non-editing server converts the video material file into a preset format suitable for non-editing software;

the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

According to the embodiment of the application, the non-editing server generates a corresponding proxy video file based on the video material file with the resolution higher than 720P, cloud non-editing operation is performed based on the proxy video file, and the rendering server renders the video material file according to the result of the non-editing operation. The cloud non-editing operation is carried out in a mode of remotely accessing the non-editing server, so that the time and the economic cost of a user on the post-processing of the high-resolution video can be greatly reduced; and generating a corresponding proxy video file according to the video material file, and performing post-processing based on the proxy video file, so that the load of a non-editing server is reduced, and the efficiency of non-editing operation of the high-resolution video material file is improved.

Drawings

FIG. 1 is a block diagram of an embodiment of a video authoring system of the present application;

FIG. 2 is a block diagram of an embodiment of a non-compiled server of the present application;

FIG. 3 is a block flow diagram of an embodiment of a video authoring method of the present application;

fig. 4 is a block flow diagram of another embodiment of a video editing method of the present application.

Detailed Description

For a better understanding of the above technical solutions, exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

With the improvement of technological progress, people have higher and higher requirements for high-resolution contents. The popularity of 8K devices in recent years has led to an increasing number of non-professionals choosing an 8K camera for video capture. But it also raises a problem that most machines with insufficient performance for users can perform post-processing on high-resolution video material files (e.g. 8K-resolution video material). A hardware device and professional post software which can meet the requirement of high-resolution video material file processing are high in cost for non-professional users. And the existing method for processing by using hardware equipment for processing high-resolution video material files is not efficient.

Accordingly, there is a need to reduce the cost of non-editing operations on high resolution video material files and to increase the efficiency of non-editing operations on high resolution video material files. Based on the inventive concept, the application provides a video non-editing system and a video non-editing method.

Example one

Referring to fig. 1, a video authoring system is described, the video authoring system comprising: a non-authoring server 10 and a rendering server 20.

The non-editing server 10 is used for generating a corresponding proxy video file according to the video material file and performing non-editing operation based on the proxy video file; and the resolution ratio of the video material file is higher than the preset resolution ratio.

It should be noted that the resolution of the video material file in the present application is higher than the preset resolution, and in some embodiments, the preset resolution may be set to 720P. That is, the present application is directed to non-coding processing of high resolution video. The present embodiment takes 8K video processing as an example.

Before generating a corresponding proxy video file from the video material files, the photographed 8K video material files may be transmitted to the non-editing server 10 through the 8K camera. It is worth mentioning that, in order to improve the efficiency of data transmission, a 5G communication module may be provided in the 8K camera. The 8K camera and the 5G communication module can realize signal transmission through USB signals and the like. The video signal of the camera is converted into a radio frequency signal through the 5G communication module, and wireless transmission of a 5G network is realized. Due to the fact that the transmission bandwidth of the 8K camera is high, the 5G communication module can meet the requirement for smooth data transmission. Thereby improving the efficiency of data transmission. The 5G communication module may be a 5G communication module of cellcept X55 of gaotong corporation.

The non-editing server 10 generates corresponding proxy video files according to the video material files, each 8K video material file is provided with a proxy video file by default, and all management operations applied to the 8K video material files are synchronously applied to the owned proxy video files. The user performs cloud non-editing operation on the proxy video file by remotely accessing the non-editing server 10, and specifically, may perform non-editing operation by using non-editing software. The non-editing operation comprises setting an in point and an out point of a video material file to select the most appropriate part, and then connecting different video materials according to a time sequence, wherein the specific non-editing processing mode comprises transition, special effect and composite superposition. The non-compiled operation is then rendered by the rendering server 20.

The strong performance of the non-editing server 10 makes the non-editing server spend less time on non-editing video, and improves efficiency, because the non-editing server 10 has high-speed CPU computing capability, long-time reliable operation, and strong I/O external data throughput capability.

And the rendering server 20 is in communication connection with the non-editing server 10 and is used for rendering the video material file according to the result of the non-editing operation. Specifically, the rendering server 20 may implement communication with the non-woven server 10 through a communication manner such as a carrier network (3G, 4G, 5G) or WI-FI.

It is worth mentioning that the files subjected to the non-editing operation by the non-editing software usually exist in the form of engineering files. The non-editing server 10 sequentially puts the video material files to be rendered at the tail of the rendering queue of the rendering server 20. The rendering queue is a set of engineering files for which all users have rendering requirements, and the rendering server 20 renders the engineering files in the rendering queue according to the head-to-tail sequence of the queue to derive the video finished file. The rendering server 20 renders the 8K video material according to the engineering file information of the non-programmed software. After finishing the single rendering work, the rendering server 20 stores the rendered video product file. The rendering server 20 then pops up the project file whose rendering work is completed at the head of the queue, and processes the next project file. Thereby completing the non-editing operation of each 8K video material file to be processed.

In other embodiments, the video non-editing system further includes a material library server 30, which is in communication connection with the rendering server 20 and the non-editing server 10, wherein the material library server 30 is configured to store the proxy video file and a video finished file obtained by rendering the video material file by the rendering server 20; thereby relieving the storage space pressure of the rendering server 20 and ensuring that the performance of the rendering server 20 is not affected. It will be appreciated that the material library server 30 may store the proxy video file and/or the video artifact file using a large disk array.

The video non-editing system in this example divides the servers into the non-editing server 10, the rendering server 20 and the material library server 30 according to the difference of the performance requirements of the servers of the various parts in the system. The non-editing server 10 is configured to generate a corresponding proxy video file according to the video material file, and perform a non-editing operation based on the proxy video file; the rendering server 20 is configured to render the video material file according to the result of the non-editing operation; the material library server 30 is configured to store the proxy video file and a video finished file obtained by rendering the video material file by the rendering server 20. The fluency and the reliability of the video non-editing system are effectively ensured by the respective functions of each server.

It is to be noted that the non-authoring server 10 and the rendering server 20 may use servers having higher arithmetic capabilities, and the material library server 30 may use servers having higher storage capabilities. The non-program server 10, the rendering server 20, and the material library server 30 may be a group of servers distributed in the same local area network.

It is worth mentioning that the high-speed downloading of the proxy video file and/or the video finished product file from the material library server 30 can be realized through the 5G communication module, so that the high-speed uploading and downloading of the 8K video material can be realized, and the efficiency of the non-editing operation of the high-resolution video material file can be improved.

According to the embodiment of the application, the non-editing server 10 generates a corresponding proxy video file based on the video material file with the resolution higher than 720P, cloud non-editing operation is performed based on the proxy video file, and the rendering server 20 renders the video material file according to the result of the non-editing operation. The cloud non-editing operation is carried out in a mode of remotely accessing the non-editing server 10, so that the time and the economic cost of a user on the post-processing of the high-resolution video can be greatly reduced; by generating a corresponding proxy video file according to the video material file and performing post-processing based on the proxy video file, the load of the non-editing server 10 is reduced, and the efficiency of the non-editing operation of the high-resolution video material file is improved.

In other aspects of the present application, please refer to fig. 2, the non-coding server 10 includes a format conversion module 14, and the format conversion module 14 is configured to convert the video material file into a to-be-processed material file in a preset format suitable for non-coding software. In this embodiment, all the uploaded 8K video material must be transcoded (i.e., format converted) and generate a proxy video file, and the transcoded material file to be processed and the proxy video file are placed in the material library server 30. Transcoding is because the h.265 coded video uploaded by the 8K camera cannot be directly processed by some non-coding software, and transcoding to a preset format facilitates processing by the non-coding software.

Specifically, the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

In other aspects of the present application, please refer to fig. 2, the non-editing server 10 further includes a login authentication module 12, where the login authentication module 12 is configured to collect login information sent by a user through a terminal device.

The terminal device can be various commonly used terminal devices, such as a smart phone, a personal computer, a tablet computer, an intelligent wearable device and the like. The login information comprises: at least one of user personal information, user material library information and non-editing project document library information. The personal information of the user can comprise the exclusive information of the user, such as name, nickname, telephone number, birthday and the like; the user material library information can comprise information such as account numbers and passwords of the user material library, or names of the user material library; the information of the non-editing project file library comprises names of the non-editing project file library and the like. After the user successfully passes the login verification module 12, the 8K video material file can be subjected to non-editing operation by remotely accessing the non-editing server 10.

In other aspects of the present application, please refer to fig. 2, the non-editing server 10 further includes a new non-editing engineering module, and the new non-editing engineering module is configured to create a new engineering file in an eXtensible Markup Language (XML) format. After logging in the non-editing server 10 and acquiring the information of the non-editing project document library, the user checks whether the user has project documents. For users who do not build project files, the video non-editing system guides the users to build non-editing project files. And after confirming that the user has the project document library, allowing the user to newly create a non-edited project document in the document library. Specifically, in this embodiment, the newly created non-project file uses the xml format in a unified manner. The extensible markup language is an extensible markup language, is irrelevant to specific software, and can be universally used for storing non-compiled software engineering files. The user can even download the project file in the extensible markup language format and then carry out local non-editing operation. By uniformly using the project files in the extensible markup language format, the project files in the extensible markup language format have strong compatibility. The user can even download the project file in the format of the extensible markup language, realize local post processing, and then upload the project file in the format to perform video rendering.

In some embodiments, referring to fig. 2, the non-compilation server 10 further includes a non-compilation operation module 11, where the non-compilation operation module 11 includes an import module and a clipping module; the import module is configured to add the proxy video file in the material library server 30 into the engineering file in the xml format; the clipping module is used for clipping the proxy video file.

Specifically, a user accesses a user material library through an import module, imports the transcoded video material to be processed and the proxy video file into non-coding software, and uses the proxy video file for non-coding processing. The user uses a clipping module (namely non-software) in the cloud end to clip the proxy video file. It is understood that the software non-programming in the present embodiment may be the software non-programming that is mainstream in the market. Such as guidable, etc., since there are too many non-programming software options, they are not listed here.

It should be noted that the material library server 30 includes a video material management module, and the video material management module is configured to add, modify, and delete the to-be-processed material file and/or the video finished file. The user allows the video non-editing system to access the material library server 30 through the personal computer and the mobile device, manages the existing proxy video file and the existing video finished product file, and realizes operations such as adding, modifying and deleting the 8K video material file. It is convenient to manage the proxy video file and the video product file of the material library server 30.

Further, the material library server 30 further includes a synchronous deletion module, configured to delete the proxy video file corresponding to the material file to be processed when the material file to be processed is deleted. Since the proxy video file is only used for proxy clipping operation of the non-programmed software, when the to-be-processed material file is deleted, it is indicated that further processing is not required for the to-be-processed material, and at this time, the corresponding proxy video file in the material library server 30 can be deleted, thereby reducing the storage redundancy in the material library server 30.

In some embodiments, the non-coding server 10 and the material library server 30 further include a preview module 13, configured to play the proxy video file in the non-coding server 10 with a code rate lower than a preset code rate threshold, or play the video product file in the material library server 30 with a code rate lower than a preset code rate threshold.

The preset bitrate threshold can be set to a lower video bitrate, for example, the preset bitrate threshold is set to 5000 kb/s. The preview module 13 of this embodiment plays the proxy video file in the non-coding server 10 with a code rate lower than a preset code rate threshold, or plays the video finished file in the material library server 30 with a code rate lower than a preset code rate threshold. Therefore, the low-bit-rate video stream can be previewed in real time, and the bandwidth pressure and the pressure of the non-coding server 10 and the material library server 30 are reduced.

Example two

Referring to fig. 3, the present application further provides a video editing method, where the video editing system includes an editing server 10, a rendering server 20, and a material library server 30, and the video editing method includes:

s200, the non-editing server 10 generates a corresponding proxy video file according to the video material file, and performs non-editing operation based on the proxy video file;

the non-editing server 10 generates corresponding proxy video files according to the video material files, each 8K video material file is provided with a proxy video file by default, and all management operations applied to the 8K video material files are synchronously applied to the owned proxy video files. The user performs cloud non-editing operation on the proxy video file by remotely accessing the non-editing server 10, and specifically, may perform non-editing operation by using non-editing software. The non-editing operation comprises setting an in point and an out point of a video material file to select the most appropriate part, and then connecting different video materials according to a time sequence, wherein the specific non-editing processing mode comprises transition, special effect and composite superposition. The non-compiled operation is then rendered by the rendering server 20.

S300, the rendering server 20 renders the video material file according to the non-editing operation result, and sends the rendered video finished product file to the material library server 30;

files that are subject to non-compilation operations by non-compilation software typically exist in the form of engineering files. The non-editing server 10 sequentially puts the video material files to be rendered at the tail of the rendering queue of the rendering server 20. The rendering queue is a set of engineering files for which all users have rendering requirements, and the rendering server 20 renders the engineering files in the rendering queue according to the head-to-tail sequence of the queue to derive the video finished file. The rendering server 20 renders the 8K video material according to the engineering file information of the non-programmed software. After finishing the single rendering work, the rendering server 20 stores the rendered video product file. The rendering server 20 then pops up the project file whose rendering work is completed at the head of the queue, and processes the next project file. Thereby completing the non-editing operation of each 8K video material file to be processed. The rendering server 20 sends the rendered video finished file to the material library server 30.

S400, storing the proxy video file and the video product file through the material library server 30.

The material library server 30 is configured to store the proxy video file and a video finished file obtained by rendering the video material file by the rendering server 20; thereby relieving the storage space pressure of the rendering server 20 and ensuring that the performance of the rendering server 20 is not affected. It will be appreciated that the material library server 30 may store the proxy video file and/or the video artifact file using a large disk array.

According to the embodiment of the application, the non-editing server 10 generates a corresponding proxy video file based on the video material file with the resolution higher than 720P, cloud non-editing operation is performed based on the proxy video file, and the rendering server 20 renders the video material file according to the result of the non-editing operation. The cloud non-editing operation is carried out in a mode of remotely accessing the non-editing server 10, so that the time and the economic cost of a user on the post-processing of the high-resolution video can be greatly reduced; by generating a corresponding proxy video file according to the video material file and performing post-processing based on the proxy video file, the load of the non-editing server 10 is reduced, and the efficiency of the non-editing operation of the high-resolution video material file is improved.

Based on the same inventive concept, please refer to fig. 4, the present application further proposes a third embodiment, which is based on the second embodiment.

In some embodiments, before the step S200, the step of generating, by the non-editing server 10, a corresponding proxy video file according to the video material file, and the step for performing the non-editing operation based on the proxy video file, the method further includes:

s100, the non-editing server 10 converts the video material file into a preset format suitable for non-editing software; the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

In this embodiment, all the uploaded 8K video material must be transcoded (i.e., format converted) and generate a proxy video file, and the transcoded material file to be processed and the proxy video file are placed in the material library server 30. Transcoding is because the h.265 coded video uploaded by the 8K camera cannot be processed directly by some non-coding software, and transcoding to a preset format facilitates processing by the non-coding software, thereby providing a technical basis for non-coding operation of 8K video materials.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (10)

1. A video authoring system, comprising:

the non-editing server is used for generating a corresponding proxy video file according to the video material file and performing non-editing operation based on the proxy video file; the resolution ratio of the video material file is higher than the preset resolution ratio; and

and the rendering server is in communication connection with the non-editing server and is used for rendering the video material file according to the result of the non-editing operation.

2. The video authoring system of claim 1 wherein,

the non-coding server comprises a format conversion module, and the format conversion module is used for converting the video material file into a material file to be processed in a preset format suitable for non-coding software;

the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

3. The video authoring system of claim 2 wherein,

the video non-editing system also comprises a material library server which is in communication connection with the rendering server and the non-editing server and is used for storing the proxy video file and a video finished product file obtained by rendering the video material file by the rendering server;

the material library server comprises a video material management module, and the video material management module is used for adding, modifying and deleting the material file to be processed and/or the video finished product file.

4. The video editing system of claim 2, wherein the material library server further comprises a synchronous deletion module configured to delete the proxy video file corresponding to the material file to be processed when the material file to be processed is deleted.

5. The video authoring system of claim 2 wherein the authoring server further comprises a build authoring module, said build authoring module adapted to build engineering documents in extensible markup language format.

6. The video authoring system of claim 5 wherein,

the non-editing server also comprises a non-editing operation module, and the non-editing operation module comprises an import module and a clipping module;

the import module is used for adding the proxy video file in the material library server into the project file in the extensible markup language format;

the clipping module is used for clipping the proxy video file.

7. The video authoring system of claim 1 wherein,

the non-editing server also comprises a login verification module, wherein the login verification module is used for collecting login information sent by a user through terminal equipment;

the login information comprises: at least one of user personal information, user material library information and non-editing project document library information.

8. The video non-encoding system of claim 3, wherein the non-encoding server and the material library server further comprise a preview module for playing the proxy video file in the non-encoding server with a code rate lower than a preset code rate threshold, or playing the video product file of the material library server with a code rate lower than a preset code rate threshold.

9. A video editing method applied to the video editing system according to any one of claims 1 to 8, wherein the video editing system includes an editing server, a rendering server, and a material library server, and the video editing method includes:

the non-editing server generates a corresponding proxy video file according to the video material file and performs non-editing operation based on the proxy video file;

the rendering server renders the video material file according to the non-editing operation result and sends the rendered video finished product file to the material library server;

and storing the proxy video file and the video finished product file through the material library server.

10. The video non-coding method of claim 9,

before the step that the non-editing server generates a corresponding proxy video file according to the video material file and is used for performing non-editing operation based on the proxy video file, the method further comprises the following steps:

the non-editing server converts the video material file into a preset format suitable for non-editing software;

the preset format includes any one of ProRes format, AVI format, MPEG-1 format, MPEG-2 format, WMV format, M2V format, MOV format, DAT format, and VOB format.

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