阅读说明：本技术 一种智能电视场景色彩自动调节方法及系统 (Automatic adjusting method and system for scene color of smart television ) 是由 王相 李青云 于 2019-10-31 设计创作，主要内容包括：本发明提出的一种智能电视场景色彩自动调节方法,首先建立多个色彩模型,且每一个色彩模型均关联有对应的播放场景；然后在电视播放过程中,根据服务器返回数据获取当前播放场景数据,并获取当前播放场景数据对应的色彩模型作为应用模型；再根据应用模型对当前播放场景进行画面调整。本发明实现了不同播放场景与画面色彩的自动交互调节与自动匹配,解决了智能电视各场景播放的单一色彩问题和用户自己设置的不匹配和繁琐问题。(The invention provides an automatic color adjusting method for an intelligent television scene, which comprises the steps of firstly establishing a plurality of color models, wherein each color model is associated with a corresponding playing scene; then, in the process of playing the television, obtaining current playing scene data according to the data returned by the server, and obtaining a color model corresponding to the current playing scene data as an application model; and then adjusting the current playing scene according to the application model. The invention realizes automatic interactive adjustment and automatic matching of different playing scenes and picture colors, and solves the problems of single color playing of each scene of the intelligent television and mismatching and complexity of user self setting.)

1. An automatic color adjusting method for an intelligent television scene is characterized in that a plurality of color models are established, and each color model is associated with a corresponding playing scene; then, in the process of playing the television, obtaining current playing scene data according to the data returned by the server, and obtaining a color model corresponding to the current playing scene data as an application model; and then adjusting the current playing scene according to the application model.

2. The method for automatically adjusting the scene color of the smart television as claimed in claim 1, comprising the following steps:

s1, establishing a local database, wherein a plurality of color models are stored in the local database, and each color model is associated with a corresponding playing scene;

s2, in the video playing process, the server returns the current playing scene data to the video terminal according to the data request sent by the video terminal;

s3, the video terminal searches a local database according to the current playing scene data and judges whether a corresponding playing scene exists;

s4, if yes, acquiring a color model corresponding to the current playing scene as an application model;

s5, if not, generating a new playing scene and a color model corresponding to the new playing scene according to the data of the current playing scene, supplementing the new playing scene and the corresponding color model into a local database, and meanwhile, taking the generated color model as an application model;

and S6, adjusting the current playing scene according to the application model.

3. The intelligent tv scene color automatic adjustment method according to claim 2, wherein in step S2, the video terminal periodically sends data request to the server with an interval period of 10S to 60S.

4. The method for automatically adjusting colors of scenes in a smart tv as claimed in claim 2, wherein in step S2, the currently playing scene data includes: classification, name, label, description and signal slice source quality; the playback scenario includes classification, name, label, description, and signal source quality.

5. The method for automatically adjusting colors of scenes in a smart television as claimed in claim 4, wherein in step S1, a plurality of sub-libraries are set in the local database, each sub-library corresponding to a category; storing each color model in a corresponding sub-library according to the classification of the associated playing scene; step S3 specifically includes: firstly, determining a sub-library according to the classification in the current playing scene data, and searching each playing scene in the sub-library one by one.

6. The method for automatically adjusting colors of scenes of a smart television as claimed in claim 5, wherein in each sub-library, the color models are sequentially stored; in step S3, retrieving the playback scenes corresponding to the color models according to the storage order; step S4 further includes: the application model is adjusted to the first storage bit in the sublibrary.

7. The method for automatically adjusting colors of scenes in a smart television as claimed in claim 2, wherein in step S5, a color model corresponding to a new playing scene is obtained according to a preset model trainer.

8. An automatic intelligent television scene color adjusting system is characterized by comprising:

a plurality of color models are stored in a local database, and each color model is associated with a corresponding playing scene;

the data request module is used for requesting data from the server and obtaining a current playing scene according to current playing scene data returned by the server;

the scene retrieval module is respectively connected with the local database and the data request module and is used for retrieving the local database according to the current playing scene and acquiring a corresponding color model as an application model;

the model generation module is connected with the scene retrieval module; the scene retrieval module is used for sending the current playing scene to the model generation module when the local database has no color model corresponding to the current playing scene; the model generation module is used for generating a new color model as an application model according to the current playing scene;

and the playing control module is respectively connected with the scene retrieval module and the model generation module and is used for setting the current playing scene according to the application model.

9. The intelligent television scene color auto-adjustment system of claim 8, wherein playing the scene comprises: classification, name, label, description and signal slice source quality; and a sub-library is arranged in the local database corresponding to each classification, and each color model is stored in the corresponding sub-library.

10. The system for automatically adjusting colors of scenes in a smart television as claimed in claim 8, further comprising an editing module, wherein the editing module is respectively connected to the model generating module in the local database; the model generation module is preset with a model trainer and is used for inputting the current playing scene into the model trainer to obtain a new color model; the editing module is used for editing the color models and the model trainers in the local database.

Technical Field

The invention relates to the technical field of intelligent televisions, in particular to an automatic scene color adjusting method and system of an intelligent television.

Background

With the development of science and technology, smart televisions are favored by more and more users, and the current main method of smart televisions is to finish the fixed configuration of color image quality in the development process without changing in the use process, or to adopt a built-in television with several color image qualities, so that users can select different color image qualities.

The two existing interaction modes have certain problems, and a single color image quality cannot adapt to different scenes; the user selects the color image quality option conveniently, and cannot know the specific parameters of the color image quality and the video matching condition, so that the use experience of the user in each scene is influenced.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides an automatic scene color adjusting method for an intelligent television.

The invention provides an automatic color adjusting method for an intelligent television scene, which comprises the steps of firstly establishing a plurality of color models, wherein each color model is associated with a corresponding playing scene; then, in the process of playing the television, obtaining current playing scene data according to the data returned by the server, and obtaining a color model corresponding to the current playing scene data as an application model; and then adjusting the current playing scene according to the application model.

Preferably, the method specifically comprises the following steps:

s1, establishing a local database, wherein a plurality of color models are stored in the local database, and each color model is associated with a corresponding playing scene;

s2, in the video playing process, the server returns the current playing scene data to the video terminal according to the data request sent by the video terminal;

s3, the video terminal searches a local database according to the current playing scene data and judges whether a corresponding playing scene exists;

s4, if yes, acquiring a color model corresponding to the current playing scene as an application model;

s5, if not, generating a new playing scene and a color model corresponding to the new playing scene according to the data of the current playing scene, supplementing the new playing scene and the corresponding color model into a local database, and meanwhile, taking the generated color model as an application model;

and S6, adjusting the current playing scene according to the application model.

Preferably, in step S2, the video terminal periodically sends data requests to the server, with an interval period of 10S to 60S.

Preferably, in step S2, the currently playing scene data includes: classification, name, label, description and signal slice source quality; the playback scenario includes classification, name, label, description, and signal source quality.

Preferably, in step S1, the local database is provided with a plurality of sub-libraries, and each sub-library corresponds to one category; storing each color model in a corresponding sub-library according to the classification of the associated playing scene; step S3 specifically includes: firstly, determining a sub-library according to the classification in the current playing scene data, and searching each playing scene in the sub-library one by one.

Preferably, in each sub-library, the color models are stored in sequence; in step S3, retrieving the playback scenes corresponding to the color models according to the storage order; step S4 further includes: the application model is adjusted to the first storage bit in the sublibrary.

Preferably, in step S5, the color model corresponding to the new playing scene is obtained according to a preset model trainer.

An automatic adjusting system for scene color of an intelligent television comprises:

a plurality of color models are stored in a local database, and each color model is associated with a corresponding playing scene;

the data request module is used for requesting data from the server and obtaining a current playing scene according to current playing scene data returned by the server;

the scene retrieval module is respectively connected with the local database and the data request module and is used for retrieving the local database according to the current playing scene and acquiring a corresponding color model as an application model;

the model generation module is connected with the scene retrieval module; the scene retrieval module is used for sending the current playing scene to the model generation module when the local database has no color model corresponding to the current playing scene; the model generation module is used for generating a new color model as an application model according to the current playing scene;

and the playing control module is respectively connected with the scene retrieval module and the model generation module and is used for setting the current playing scene according to the application model.

Preferably, playing the scene includes: classification, name, label, description and signal slice source quality; and a sub-library is arranged in the local database corresponding to each classification, and each color model is stored in the corresponding sub-library.

Preferably, the system also comprises an editing module, wherein the editing module is respectively connected with the model generating module in the local database; the model generation module is preset with a model trainer and is used for inputting the current playing scene into the model trainer to obtain a new color model; the editing module is used for editing the color models and the model trainers in the local database.

According to the method and the system for automatically adjusting the scene color of the smart television, the requirement of carrying out adaptive picture color adjustment according to different playing scenes is met by establishing the color model corresponding to the playing scene; and through the corresponding storage of the playing scenes and the color models, the intelligent retrieval and application of the color models are realized, the automatic interactive adjustment and automatic matching of different playing scenes and picture colors are realized, and the problems of single color playing of each scene of the intelligent television and the mismatching and fussy setting of a user are solved.

Drawings

Fig. 1 is a flowchart of an automatic scene color adjustment method for a smart television according to the present invention;

fig. 2 is a flowchart of another method for automatically adjusting scene colors of a smart television according to the present invention;

fig. 3 is a block diagram of an automatic scene color adjustment system for a smart television according to the present invention.

Detailed Description

Referring to fig. 1, in the method for automatically adjusting colors of a smart television scene, a plurality of color models are established, and each color model is associated with a corresponding playing scene; then, in the process of playing the television, obtaining current playing scene data according to the data returned by the server, and obtaining a color model corresponding to the current playing scene data as an application model; and then adjusting the current playing scene according to the application model.

Thus, in the embodiment, by establishing the color model corresponding to the playing scene, the requirement of performing adaptive picture color adjustment according to different playing scenes is met; and through the corresponding storage of the playing scenes and the color models, the intelligent retrieval and application of the color models are realized, the automatic interactive adjustment and automatic matching of different playing scenes and picture colors are realized, and the problems of single color playing of each scene of the intelligent television and the mismatching and fussy setting of a user are solved.

Referring to fig. 2, the method for automatically adjusting the scene color of the smart television provided in this embodiment specifically includes the following steps:

s1, establishing a local database, wherein the local database stores a plurality of color models, and each color model is associated with a corresponding playing scene, so that the corresponding color model can be conveniently retrieved according to the playing scene.

Specifically, in this embodiment, the playback scene includes a category, a name, a label, a description, and a signal source quality. And a plurality of sub-libraries are arranged in the local database, and each sub-library corresponds to one classification. Each color model is stored in a corresponding sub-library according to the classification of the associated playing scene. In this way, in the present embodiment, after the sub library is determined according to the classification of the playback scene, the color model is directly stored in the sub library in a vertical storage manner so as to facilitate retrieval.

And S2, in the video playing process, the server returns the current playing scene data to the video terminal according to the data request sent by the video terminal. Specifically, the currently played scene data includes: classification, name, label, description, and signal source quality to extract a currently playing scene from currently playing scene data.

And S3, the video terminal searches the local database according to the current playing scene data and judges whether a corresponding playing scene exists. In this step, for the local database dividing the sub-database, the sub-database is determined according to the classification in the current playing scene data, and each playing scene is searched one by one in the sub-database.

And S4, if yes, acquiring the color model corresponding to the current playing scene as the application model.

Specifically, in each sub-library, the color models are stored sequentially. In step S3, the playback scenes corresponding to the color models are retrieved in accordance with the storage order. Step S4 further includes: the application model is adjusted to the first storage bit in the sublibrary. Therefore, the arrangement of the color models in the local database according to the recent use frequency can be ensured. Therefore, the color model can be quickly searched in consideration of the tendency of the played scene, so that the picture adjustment efficiency of the played scene is improved.

And S5, if not, generating a new playing scene and a color model corresponding to the new playing scene according to the data of the current playing scene, supplementing the new playing scene and the corresponding color model into a local database, and taking the generated color model as an application model.

In the embodiment, the new playing scene and the corresponding color model are supplemented to the local database, so that the color model in the local database is supplemented in real time, and the diversity of the color model in the local database is ensured.

Specifically, in step S5, a color model corresponding to the new playing scene is obtained according to a preset model trainer. The setting of the model trainer ensures the intelligent establishment and the efficiency of a new color model.

And S6, adjusting the current playing scene according to the application model to ensure the viewing comfort of the current playing scene.

In step S2 of the present embodiment, the video terminal periodically transmits a data request to the server at an interval period of 10S to 60S. Therefore, real-time adjustment of the playing scene can be ensured, and the picture quality of the full playing scene is ensured.

Referring to fig. 3, the present embodiment further provides an automatic scene color adjustment system for a smart television, including: the system comprises a local database, a data request module, a scene retrieval module, a model generation module and a play control module.

A plurality of color models are stored in the local database, and each color model is associated with a corresponding playing scene. Specifically, in this embodiment, the playing scene includes: classification, name, label, description and signal slice source quality. A sub-library is arranged in the local database corresponding to each classification, and each color model is stored in the corresponding sub-library respectively so as to facilitate retrieval.

And the data request module is used for requesting data from the server and obtaining the current playing scene according to the current playing scene data returned by the server.

And the scene retrieval module is respectively connected with the local database and the data request module and is used for retrieving the local database according to the current playing scene and acquiring the corresponding color model as the application model.

And the model generation module is connected with the scene retrieval module. And the scene retrieval module is used for sending the current playing scene to the model generation module when the local database has no color model corresponding to the current playing scene. And the model generation module is used for generating a new color model as an application model according to the current playing scene.

And the playing control module is respectively connected with the scene retrieval module and the model generation module and is used for setting the current playing scene according to the application model.

Specifically, in this embodiment, the system further includes an editing module, and the editing module is respectively connected to the model generating module in the local database. The model generation module is preset with a model trainer and is used for inputting the current playing scene into the model trainer to obtain a new color model. The editing module is used for editing the color models and the model trainers in the local database. Therefore, through the editing module, the stored color model and the color model to be generated can be adjusted, so that the picture debugging of the playing scene is more in line with the requirements of a user, and the video watching experience is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.