CN112637693B - System, method, device and storage medium for dynamically switching television picture quality effect - Google Patents

Abstract

The invention discloses a system, a method, equipment and a storage medium for dynamically switching television picture quality effects, wherein the system comprises a data standardization module, a UI interaction module, a network transmission module, a picture quality data processing module and a picture quality abnormity processing module. The method comprises the steps of customizing an image quality data structure and making a table structure corresponding to a television database; generating a corresponding display and editing interface according to the data structure, and performing effective image quality data interaction with a television database; starting a network transmission thread, submitting an operation request and receiving result data through an http protocol, and displaying or modifying an image quality effect through the data; and screening the data, sorting out the optimal data standard of each area, and monitoring the picture data in real time to ensure that the data works in a reasonable interval. The invention ensures that the television terminal can safely and accurately switch the image quality in real time, and realizes a man-machine cooperation idea.

Description

System, method, device and storage medium for dynamically switching television picture quality effect

Technical Field

The present invention relates to the field of television image quality technologies, and in particular, to a system, a method, a device, and a storage medium for dynamically switching television image quality effects.

Background

The television picture quality data in the current market is provided by picture quality designers according to a certain regional standard and is preset in a television system through a compiler. The system presents the final image quality effect to the terminal user through the image quality function module. In other words, the image quality effect seen by the user is the same for products in the same area, and the user side can only passively adapt to the image quality effect due to the solidified image quality effect. This mode is a challenge for image designers, and before drawing up a standard of a certain region, people need to know some habits and preferences of the region, and also need to consider religious customs, refer to and compare image quality effects of other products, and so on. The requirement analysis effort and uncertainty is increased invisibly. Meanwhile, the fixed effect does not meet the trend that only a television can be used at the present stage, and the competitiveness of some young users pursuing humanization is insufficient. More importantly, once the image quality data does not meet a certain standard and does not match a certain screen, the image quality needs to be updated again. This requires re-burning and replacing the entire software, which is a huge energy loss for production.

Disclosure of Invention

The invention provides a system, a method, equipment and a storage medium for dynamically switching the picture quality effect of a television, which aim to solve the problems.

The technical scheme adopted by the invention is as follows: the invention also provides a system for dynamically switching the television picture quality effect, which comprises:

the data standardization module is used for screening data related to image quality and repackaging the data according to a certain data structure;

the UI interaction module is used for providing a friendly operation interface for a terminal user;

the network transmission module is used for ensuring that the user data is transmitted between the back-end server and the television in real time, quickly and safely;

the image quality data processing module is used for processing the mutual conversion between the user data structure and the bottom layer image quality data structure so that the television can accurately receive the data provided by the user, screening the final data of the client and calculating the optimal data result by combining the professional data parameters of an image quality engineer;

the image quality abnormity processing module is used for monitoring unreasonable and unscientific data input by a user, such as data which is harmful to a display screen or data which threatens eyes of the user; and the effect of reasonable safety is restored in time.

The invention also provides a method for dynamically switching the television picture quality effect, which comprises the following steps:

customizing an image quality data structure, and making a table structure corresponding to a television database;

generating a corresponding display and editing interface according to the data structure, and performing effective image quality data interaction with a television database;

starting a network transmission thread, submitting an operation request and receiving result data through an http protocol, and displaying or modifying an image quality effect through the data;

and screening the data, sorting out the optimal data standard of each area, and monitoring the picture data in real time to ensure that the data works in a reasonable interval.

Preferably, the customizing the picture quality data structure and the table structure corresponding to the television database include:

customizing an image quality related data table;

customizing a connection pool of a television and a television database;

formulating a data rule and a data rollback service;

and generating an optimal image quality data combination stack pile.

Preferably, the generating of the corresponding display and edit interface according to the data structure and the effective image quality data interaction with the tv database include:

designing a humanized UI (user interface), providing a simple container for a terminal user to modify data and select the data;

acquiring corresponding image quality data by reading the service API; loading an image quality service module and refreshing an image quality effect;

editing the selected image quality data by the user, and refreshing the corresponding image quality effect; storing the data into a television database through a writing service API;

and the abnormal service api informs the user that the data has risks, recovers the image quality effect, and synchronously rolls back the data to the upper version and caches the data.

Preferably, the starting a network transmission thread, submitting an operation request and receiving result data through an http protocol, and displaying or modifying the image quality effect through data includes:

the television requests to log in an internet server and passes the security authentication;

various requests from the televisions in each area are monitored by the server, and different data are responded to the corresponding televisions according to the requests;

the television sets an IP address through a network of the television, locates an area where the television is located, and submits area information pos _ config.ini to a server;

the server packages the area optimization data into pqdata. XML and transmits the pqdata. XML back to the television database;

selecting and refreshing the image quality effect by a user;

and uploading the data required to be updated by the television database to an internet server by the user.

Preferably, the data is screened, the optimal data standard of each region is arranged, the picture data is monitored in real time, and the data is guaranteed to work in a reasonable interval, wherein the data comprises the following steps:

collecting returned pqdata. XML for splitting, and combing new image quality data according to the difference of regions and screens;

screening data to obtain the most active data range of the corresponding area;

establishing a non-standard data monitoring standard, carrying out risk supervision on the data, and if no abnormity exists, pushing the data to a television database; otherwise, deleting the related data and returning an abnormal alarm;

and memorizing the data parameters set by the user, forming preference data, optimizing according to the preference data, and refreshing the image quality standard of the region.

The invention also provides television equipment comprising the system for dynamically switching the television picture quality effect.

The present invention also provides a television apparatus, comprising: the dynamic switching television picture quality effect program is executed by the processor to realize the steps of the method for dynamically switching the television picture quality effect.

The invention also provides a computer storage medium, wherein the computer storage medium stores a program for dynamically switching the television picture quality effect, and the program for dynamically switching the television picture quality effect realizes the steps of the method for dynamically switching the television picture quality effect when being executed by a processor.

The invention has the beneficial effects that: in the invention, a software designer can modularize the image quality data and adjust the image quality data to a client through a friendly UI. And when the user adjusts the effect, the final data of the user is transmitted back to the server terminal through the Internet. The server side collects the information of the user by means of big data analysis, and continuously updates the area image quality standard data so as to achieve the optimal standard. Meanwhile, the server can push the optimal or most popular data to the client through the Internet for selection by the client. Therefore, the effect that a user can dynamically switch the image quality in real time is achieved.

Drawings

Fig. 1 is a block diagram of a system for dynamically switching the image quality of a television according to the present invention.

Fig. 2 is a general flowchart of a method for dynamically switching the image quality effect of a television according to the present invention.

Fig. 3 is a flowchart of the method for dynamically switching the image quality effect of the television according to the present invention after S10 is expanded.

Fig. 4 is a flowchart illustrating the method for dynamically switching the image quality effect of the television according to the present invention after S20 is expanded.

Fig. 5 is a flowchart illustrating the method for dynamically switching the image quality effect of the television according to the present invention after S30 is expanded.

Fig. 6 is a flowchart illustrating the process of S40 in the method for dynamically switching the tv image quality effect according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail below with reference to the accompanying drawings, but embodiments of the present invention are not limited thereto.

It should be understood that the various steps recited in the method embodiments of the present disclosure may be performed in a different order, and/or performed in parallel. Moreover, method embodiments may include additional steps and/or omit performing the illustrated steps. The scope of the present disclosure is not limited in this respect.

Example 1:

referring to fig. 1, in a system for dynamically switching a television image quality effect, a real-time switching function of image quality data is implemented by the following five modules. Through the modules, a terminal user can receive the optimal image quality combination and can adjust parameters at any time to push the parameters to the back-end processing, so that the effect of switching the image quality in real time is realized.

Data normalization module 1: the module is mainly used for screening data related to image quality and repackaging the data according to a certain data structure. Providing friendly fillable data for the end user. Meanwhile, developers and image quality engineers can optimize, track and process the data conveniently. Most importantly, the encapsulated data can be more accurately transmitted through the network.

And the UI interaction module 2 is mainly used for providing a friendly operation interface for the terminal user. According to the data standardization module 1, a software UI designer can design a concise and optimized television UI interface. The user edits, demonstrates and feeds back the parameters related to the image quality to the television and finally submits the parameters to the server by means of the interfaces. On the other hand, the television also displays the related optimal image quality data of the server end to the terminal user for alternative selection according to a certain naming rule.

The network transmission module 3: the module is a bridge for interaction between the television and the user. The module ensures that the user data is transmitted between the back-end server and the television in real time, quickly and safely. The television is accessed to the Internet through a wifi module or a wlan module, and logs in through an http protocol to transmit data. The end user can reach the back-end server by means of the data standardization module 1. Meanwhile, the server can also push data to the user terminal. The module is used for providing a channel for the television and the back-end server.

The image quality data processing module 4: the module is operated by a back-end server and is a core module. On one hand, the module processes the mutual conversion between the user data structure and the bottom layer image quality data structure, so that the television can accurately receive the data provided by the user; on the other hand, the module also needs to screen the final data of the client and combine the professional data parameters of the image quality engineer to calculate the optimal data result. And as the user side continuously inputs new parameters, the module also needs to continuously work, update data and output the optimal data combination.

The image quality exception processing module 5: the module is used for monitoring unreasonable and unscientific data input by a user, such as data which is harmful to a display screen or data which threatens eyes of the user; and the effect of reasonable safety is restored in time. Achieving a function of protecting the end user.

Example 2

Referring to fig. 2, a method for dynamically switching the image quality effect of a television includes the following steps:

s10: the software designer customizes the image quality data structure and formulates the table structure corresponding to the television database.

S20: and generating a corresponding display and editing interface according to the data structure, and performing effective image quality data interaction with the television database.

S30: and starting a network transmission thread, submitting an operation request and receiving result data through an http protocol, and displaying or modifying the image quality effect through the data.

S40: the data are screened, the optimal data standards of all the areas are arranged, and image quality engineers monitor the image quality data in real time to ensure that the data work in a reasonable interval.

Further, the above S10 further includes the following steps, see fig. 3:

s101: the customized image quality related data table comprises picturemode table, gamma table, color table and the like.

S102: and customizing a connection pool between the television and the television database to ensure smooth and safe communication between the television database and the television.

S103: and formulating a data rule and a data rollback service to ensure that data exception can be processed in time.

S104: and generating an optimal image quality data combination stack to ensure the rapid data switching.

Designing a humanized UI (user interface), providing a simple container for a terminal user to modify data and select the data;

the above S20 further includes the following steps, see fig. 4:

s201: designing a humanized UI (user interface), providing a simple container for a terminal user to modify data and select the data;

s202: acquiring corresponding image quality data by reading the service API; loading an image quality service module and refreshing an image quality effect;

s203: editing the selected image quality data by the user, and refreshing the corresponding image quality effect; storing the data into a television database through a writing service API;

s204: and the abnormal service api informs the user that the data has risks, recovers the image quality effect, and synchronously rolls back the data to the upper version and caches the data.

The above S30 further includes the following steps, see fig. 5:

s301: the television requests to log in an internet server and passes the security authentication;

s302: the server monitors various requests from the televisions in each area and responds different data to the corresponding televisions according to the requests;

s303: the television sets an IP address through a network of the television, locates an area where the television is located, and submits area information pos _ config.ini to a server;

s304: the server packages the area optimization data into pqdata. XML and transmits the pqdata. XML back to the television database;

s305: the user selects and refreshes the image quality effect through the step S202;

s306: the user uploads the data of the television database to be updated to the internet server through step S203. The optimal data stack heap is reconstructed through step S40.

The above S40 further includes the following steps, see fig. 6:

s401: collecting the pqdata. XML returned in the step S304 for splitting, and combing new image quality data according to the difference of regions and screens;

s402: the intelligent data processor screens the data to obtain the most active data range of the corresponding area;

s403: establishing a non-standard data monitoring standard, carrying out risk supervision on the data, and if no abnormity exists, pushing the data to a television database; otherwise, deleting the related data and returning an abnormal alarm to S204;

s404: and memorizing the data parameters set by the user, forming preference data, optimizing according to the preference data, and refreshing the image quality standard of the region.

Example 3

In addition, the present invention also provides a television device, which includes the system for dynamically switching the television picture quality effect described in embodiment 1.

In other embodiments, a television apparatus includes a memory, a processor, and a program for dynamically switching television picture quality effect, stored in the memory and executable on the processor, wherein the program for dynamically switching television picture quality effect, when executed by the processor, implements the steps of the method for dynamically switching television picture quality effect of embodiment 2.

In addition, the present invention further provides a computer storage medium, wherein a program for dynamically switching the television picture quality effect is stored in the computer storage medium, and when the program for dynamically switching the television picture quality effect is executed by a processor, the steps of the method for dynamically switching the television picture quality effect according to embodiment 2 are implemented.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (9)

1. A system for dynamically switching the image quality effect of a television is characterized by comprising:

the data standardization module is used for screening data related to image quality and repackaging the data according to a certain data structure;

the UI interaction module is used for providing a friendly operation interface for a terminal user;

the network transmission module is used for ensuring that the user data is transmitted between the back-end server and the television in real time, quickly and safely;

the image quality data processing module is used for processing the mutual conversion between the user data structure and the bottom layer image quality data structure so that the television can accurately receive the data provided by the user, screening the final data of the client and calculating the optimal data result by combining the professional data parameters of an image quality engineer;

the image quality abnormity processing module is used for monitoring unreasonable and unscientific data input by a user, wherein the unreasonable and unscientific data are data which are harmful to a display screen or data which threaten the eyes of the user; if data harmful to the display screen or data threatening the eyes of the user are found, timely reminding is carried out; and the effect of reasonable safety is recovered in time;

the step of screening the final data of the client and calculating an optimal data result by combining professional data parameters of an image quality engineer comprises the following steps:

collecting returned pqdata. XML for splitting, and combing new image quality data according to the difference of regions and screens;

screening data to obtain the most active data range of the corresponding area;

establishing a non-standard data monitoring standard, carrying out risk supervision on the data, and if no abnormity exists, pushing the data to a television database; otherwise, deleting the related data and returning an abnormal alarm;

and memorizing the data parameters set by the user, forming preference data, optimizing according to the preference data, and refreshing the image quality standard of the region.

2. A method for dynamically switching the image quality effect of a television is characterized by comprising the following steps:

customizing an image quality data structure, and making a table structure corresponding to a television database;

generating a corresponding display and editing interface according to the data structure, and performing effective image quality data interaction with a television database;

starting a network transmission thread, submitting an operation request and receiving result data through an http protocol, and displaying or modifying an image quality effect through the data;

screening the data, sorting out the optimal data standard of each area, and monitoring the picture data in real time to ensure that the data works in a reasonable interval;

screening data, sorting out the optimal data standard of each region, monitoring picture data in real time, and ensuring that the data work in a reasonable interval comprises the following steps:

collecting returned pqdata. XML for splitting, and combing new image quality data according to the difference of regions and screens;

screening data to obtain the most active data range of the corresponding area;

establishing a non-standard data monitoring standard, carrying out risk supervision on the data, and if no abnormity exists, pushing the data to a television database; otherwise, deleting the related data and returning an abnormal alarm;

and memorizing the data parameters set by the user, forming preference data, optimizing according to the preference data, and refreshing the image quality standard of the region.

3. The method of claim 2, wherein the customizing the picture quality data structure and the table structure corresponding to the television database comprises:

customizing an image quality related data table;

customizing a connection pool of a television and a television database;

formulating a data rule and a data rollback service;

and generating an optimal image quality data combination stack pile.

4. The method of claim 3, wherein the generating of the corresponding display and edit interface according to the data structure and the performing of the effective image quality data interaction with the TV database comprises:

designing a humanized UI (user interface), providing a simple container for a terminal user to modify data and select the data;

acquiring corresponding image quality data by reading the service API; loading an image quality service module and refreshing an image quality effect;

editing the selected image quality data by the user, and refreshing the corresponding image quality effect; storing the data into a television database through a writing service API;

and the abnormal service api informs the user that the data has risks, recovers the image quality effect, and synchronously rolls back the data to the upper version and caches the data.

5. The method of claim 4, wherein the starting of the network transmission thread, submitting the operation request and receiving the result data via an http protocol, and displaying or modifying the picture quality effect via the data comprises:

the television requests to log in an internet server and passes the security authentication;

various requests from the televisions in each area are monitored by the Internet server, and different data are responded to the corresponding televisions according to the requests;

the television sets an IP address through a network of the television, locates an area where the television is located, and submits area information pos _ config.ini to an Internet server;

the Internet server packages the area optimization data into pqdata. XML in a combined mode, and transmits the pqdata. XML back to the television database;

selecting and refreshing the image quality effect by a user;

and uploading the data required to be updated by the television database to an internet server by the user.

6. The method according to claim 5, wherein the step of screening the data, sorting out the optimal data standard of each region, and monitoring the picture data in real time to ensure that the data works in a reasonable interval comprises:

collecting returned pqdata. XML for splitting, and combing new image quality data according to the difference of regions and screens;

screening data to obtain the most active data range of the corresponding area;

establishing a non-standard data monitoring standard, carrying out risk supervision on the data, and if no abnormity exists, pushing the data to a television database; otherwise, deleting the related data and returning an abnormal alarm;

and memorizing the data parameters set by the user, forming preference data, optimizing according to the preference data, and refreshing the image quality standard of the region.

7. A television apparatus comprising the system for dynamically switching television picture quality effects of claim 1.

8. A television apparatus, characterized in that the television apparatus comprises: a memory, a processor and a program for dynamically switching television picture quality effects stored on the memory and executable on the processor, the program for dynamically switching television picture quality effects when executed by the processor implementing the steps of the method for dynamically switching television picture quality effects according to any one of claims 2 to 6.

9. A computer storage medium having a dynamic switching television picture quality effect program stored thereon, the dynamic switching television picture quality effect program when executed by a processor implementing the steps of the method of dynamically switching television picture quality effect of any of claims 2 to 6.

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