CN107948351A - The imaging method of terminal and its adaptive screen, storage device - Google Patents

Abstract

The invention discloses the imaging method of a kind of terminal and its adaptive screen, storage device.The described method includes：Terminal obtains the first flag information of the first screen of its installation, and when it is the second screen to detect the first screen update, obtains the second identifier information of the second screen；First flag information and second identifier information are sent to server by terminal, and obtain the second imaging parameters of the second screen and the whether identical judging result of the first imaging parameters of the first screen；If identical judging result, then the second screen of terminal control is based on the imaging of the first imaging parameters, and if different judging result, then the second screen of terminal control is based on the imaging of the second imaging parameters.By the above-mentioned means, the present invention is obtained and is imaged based on the imaging parameters to match automatically in screen update, it is ensured that imaging effect, improves user experience.

Description

Terminal, imaging method of self-adaptive screen of terminal and storage device

Technical Field

The invention relates to the technical field of terminals, in particular to a terminal, an imaging method of a self-adaptive screen of the terminal and a storage device of the terminal.

Background

The terminal with the camera function is quite popular at present, the terminal previews the pictures collected by the camera to a user through a screen, and the imaging effect of the camera is influenced by the imaging effect of the screen. In the production phase of the terminal, the terminal is adapted with only one type of screen, and the terminal is only imaged by the imaging parameters of this type of screen. In the later production process, more screen suppliers may produce and supply screens for the terminal, the imaging parameters of the screens of the suppliers are different, when the screens are replaced by screens of other manufacturers due to damage of the screens in the subsequent use, the terminal still adopts the screen imaging parameters before replacement for imaging, obviously, the screen imaging parameters are not matched with the screen after replacement, the imaging effect of a user when the user previews the screen by using the camera is greatly reduced, and the user experience is influenced.

Disclosure of Invention

In view of this, the invention provides a terminal, an imaging method of a self-adaptive screen thereof, and a storage device, which can automatically acquire images when a screen is replaced and perform imaging based on matched imaging parameters, thereby ensuring an imaging effect and improving user experience.

An imaging method of a self-adaptive screen according to an embodiment of the present invention includes:

the terminal acquires first identification information of a first screen installed by the terminal;

when the situation that the first screen is changed into the second screen is monitored, the terminal acquires second identification information of the second screen, sends the second identification information and the first identification information to the server, and acquires a judgment result whether second imaging parameters of the second screen are the same as first imaging parameters of the first screen or not;

when a judgment result that the second imaging parameter is the same as the first imaging parameter is obtained, the terminal controls the second screen to image based on the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the terminal receives the second imaging parameter from the server and controls the second screen to image based on the second imaging parameter.

Optionally, the obtaining, by the terminal according to the second identification information, a determination result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen includes: the terminal receives a judgment result whether the second imaging parameter is the same as the first imaging parameter from the server; or the terminal receives the second imaging parameters of the second screen from the server; the terminal judges whether the second imaging parameters are the same as the first imaging parameters.

Optionally, the replacing of the first screen by the second screen by the terminal monitoring includes:

the terminal acquires the identification information of the current installation screen;

the terminal judges whether the identification information of the current installation screen is first identification information;

if not, the terminal judges that the first screen is replaced by the second screen.

Optionally, the terminal stores a first imaging parameter of a first screen in advance, or receives the first imaging parameter from the server when a determination result that the second imaging parameter is the same as the first imaging parameter is obtained.

Optionally, the first imaging parameter and the second imaging parameter comprise the same parameter type, and the parameter type comprises at least one of white balance, sharpness, contrast parameter, color saturation and brightness.

The terminal of an embodiment of the present invention includes a processor, and a communicator, a memory, and a first screen connected to the processor, wherein:

the memory is used for storing first identification information of the first screen;

the processor is used for monitoring whether the first screen is replaced or not and acquiring second identification information of the second screen when the first screen is replaced by the second screen;

the communicator is used for sending the second identification information and the first identification information to the server;

the processor is also used for obtaining a judgment result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen;

when a judgment result that the second imaging parameter is the same as the first imaging parameter is obtained, the processor is used for controlling the second screen to perform imaging based on the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the processor is used for controlling the communicator to receive the second imaging parameter from the server and controlling the second screen to image based on the second imaging parameter.

Optionally, the processor controls the communicator to receive a determination result of whether the second imaging parameter is the same as the first imaging parameter from the server; alternatively, the communicator receives the second imaging parameters of the second screen from the server, and the processor determines whether the second imaging parameters are the same as the first imaging parameters.

Optionally, the first imaging parameter and the second imaging parameter comprise the same parameter type, and the parameter type comprises at least one of white balance, sharpness, contrast parameter, color saturation and brightness.

The imaging method of the self-adaptive screen of the embodiment of the invention comprises the following steps:

the server receives first identification information of a first screen and second identification information of a second screen from the terminal;

the server inquires a first imaging parameter of the first screen according to the first identification information and inquires a second imaging parameter of the second screen according to the second identification information;

the server judges whether the second imaging parameters are the same as the first imaging parameters;

the server sends the judgment result to the terminal so that the terminal controls the second screen to image based on the first imaging parameter when receiving the judgment result that the second imaging parameter is the same as the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the server sends the second imaging parameter to the terminal so that the terminal controls the second screen to image based on the second imaging parameter.

The storage device of an embodiment of the present invention stores program data that can be executed to implement the above-described imaging method of the adaptive screen.

Has the advantages that: different from the situation of the prior art, when the situation that the first screen is changed into the second screen is detected, the identification information of the first screen and the identification information of the second screen are sent to the server, the judgment result of whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen is obtained, when the result is that the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen, the terminal controls the second screen to image based on the first imaging parameter, and when the result is that the second imaging parameter of the second screen is different from the first imaging parameter of the first screen, the terminal receives the second imaging parameter from the server and controls the second screen to image based on the second imaging parameter.

Drawings

Fig. 1 is a flowchart illustrating an adaptive screen imaging method according to a first embodiment of the present invention;

FIG. 2 is a flow chart illustrating an adaptive screen imaging method according to a second embodiment of the present invention;

FIG. 3 is a flowchart illustrating an adaptive screen imaging method according to a third embodiment of the present invention

Fig. 4 is a schematic structural diagram of a terminal according to an embodiment of the present invention.

Detailed Description

The technical solutions of the exemplary embodiments provided in the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. The various embodiments described below and the features of the embodiments can be combined with each other without conflict.

Fig. 1 is a schematic flow chart of an imaging method of an adaptive screen according to a first embodiment of the present invention. The method comprises the following steps:

s11: the terminal acquires first identification information of a first screen installed by the terminal.

The terminal comprises a mobile phone, a tablet computer, a notebook computer and the like. The identification information of the screen comprises manufacturers, models and the like, and different screens and codes which have certain rules and are different from each other can be bound and used as the identification information of the screen. The terminal is now equipped with a first screen and uses the first imaging parameters corresponding thereto.

S12: when the situation that the first screen is changed into the second screen is monitored, the terminal obtains second identification information of the second screen and sends the second identification information and the first identification information to the server.

S13: and the terminal acquires a judgment result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen from the server.

When the screen replacement is monitored, the previously used first imaging parameters may not be adapted to the replaced second screen, and the optimal imaging effect cannot be achieved. And at the moment, the terminal sends the second identification information of the current second screen and the first identification information of the first screen stored in advance to the server, the server inquires the first imaging parameters of the first screen according to the first identification information, inquires the second imaging parameters of the second screen according to the second identification information, compares the first imaging parameters with the second imaging parameters and judges whether the first imaging parameters are the same as the second imaging parameters.

In the present embodiment, the first screen and the second screen are both screens compatible with the terminal, and the "first" and "second" are merely screens for indicating that the types of screens are different, for example, the first screen and the second screen are screens supplied by two different manufacturers, and for example, the first screen and the second screen are screens of two models supplied by the same manufacturer. Correspondingly, the first imaging parameter and the second imaging parameter are both imaging parameters required by terminal display, and both of the imaging parameters have the same parameter type and can be at least one of white balance, definition, contrast parameter, color saturation and brightness.

S141: and when a judgment result that the second imaging parameter is the same as the first imaging parameter is obtained, the terminal controls the second screen to image based on the first imaging parameter.

If the terminal obtains a judgment result that the second imaging parameter is the same as the first imaging parameter, it indicates that the first identification information is the same as the second identification information, for example, the first screen and the second screen are screens of the same manufacturer and the same model, or the first screen and the second screen are not the same, but the imaging performance of the first screen and the second screen is the same, so the imaging parameters of the first screen and the second screen are the same. In this case, the second screen using the first imaging parameters can also achieve the same imaging effect as the first screen, so the terminal does not need to change the currently used first imaging parameters, and can directly use the first imaging parameters for imaging.

S142: and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the terminal receives the second imaging parameter from the server and controls the second screen to image based on the second imaging parameter.

If the second imaging parameter is different from the first imaging parameter, it indicates that the imaging performance of the second screen is different from that of the first screen, the first imaging parameter is not adaptive to the second screen, and the second screen cannot achieve the optimal imaging effect by using the first imaging parameter.

As can be seen from the above, in this embodiment, the identification information of the first screen and the second screen is sent to the server, the server compares the corresponding first imaging parameter with the corresponding second imaging parameter, if the two are the same, the second screen performs imaging according to the first imaging parameter, and if the two are different, the terminal receives the second imaging parameter from the server and images the second screen according to the second imaging parameter.

An example is now given to facilitate understanding of the present embodiment. Taking a mobile phone as an example, the imaging effect of the screen is affected by the imaging parameters, only the screen with the fixed identification information a1 and the imaging parameter a corresponding to the screen exist in the research and development stage of the mobile phone, and the research and development company stores the imaging parameter a and the corresponding identification information a1 in the server. After later development and production, the screen with the identification information of B1 enters production and after-sales maintenance. When the mobile phone screen is damaged in use, the mobile phone screen needs to be replaced, and the screen with the identification information of A1 is replaced by the screen with the identification information of B1 during maintenance. The mobile phone sends the identification information B1 and the identification information A1 of the screen used before to the server, the server compares the imaging parameters B and A corresponding to the identification information B and the identification information A, if the imaging effects of the imaging parameters B and A are the same, the mobile phone does not need to replace the imaging parameters, and imaging is directly carried out according to the imaging parameters A; and if the imaging effects of B and A are different, the mobile phone acquires an imaging parameter B from the server and performs imaging according to the screen parameter B.

Fig. 2 is a schematic flow chart illustrating an imaging method of an adaptive screen according to a second embodiment of the present invention. The method comprises the following steps:

s21: the terminal acquires first identification information of a first screen installed by the terminal.

S22: the terminal acquires identification information of a current installation screen of the terminal.

S23: the terminal judges whether the identification information of the current installation screen is the first identification information.

The terminal compares whether the identification information of the current screen is the same as the first identification information acquired before, if so, the terminal judges that the screen is not replaced, and at the moment, step S241 is executed, namely the terminal keeps the existing working state and does not process the identification information of the current screen and the first identification information any more; if not, the terminal determines that the first screen is replaced, and then executes step S242. At this time, the currently installed screen is the same as the second screen in the previous embodiment, and the currently installed identification information is the second identification information in the previous embodiment.

S241: the terminal maintains the existing working state.

S242: and the terminal acquires second identification information of the second screen and sends the second identification information to the server, and the terminal acquires second imaging parameters of the second screen from the server.

And after the terminal acquires second identification information of the second screen, the second identification information is sent to the server, the server inquires second imaging parameters of the second screen according to the second identification information, and the second imaging parameters are sent to the terminal. At this time, the terminal detects that the first screen is changed into the second screen, and the second screen is different from the first screen, and the terminal acquires the second imaging parameters from the server.

S25: the terminal judges whether the second imaging parameters are the same as the first imaging parameters.

The terminal compares the second imaging parameter with the first imaging parameter, and if the second imaging parameter is the same as the first imaging parameter, it indicates that the imaging performance of the first screen is the same as that of the second screen, and step S261 is executed. If the second imaging parameter is different from the first imaging parameter, it indicates that the imaging performance of the second screen is different from that of the first screen, the first imaging parameter is not adapted to the second screen, and the second screen cannot achieve the best imaging effect by using the first imaging parameter, and step S262 is executed.

S261: the terminal controls the second screen to perform imaging based on the first imaging parameters.

S262: and the terminal controls the second screen to image based on the second imaging parameters.

In this embodiment, the steps of determining whether the identification information of the currently installed screen is the first identification information and determining whether the second imaging parameter is the same as the first imaging parameter are both performed by the terminal. The server only needs to send the second imaging parameter to the terminal, and the process of judging whether the second imaging parameter is the same as the first imaging parameter is completed by the terminal, so that the load of the server can be reduced, the response speed of the server is increased, and the speed of acquiring the imaging parameter matched with the current screen by the terminal is also increased.

Fig. 3 is a flowchart illustrating an imaging method of an adaptive screen according to a third embodiment of the present invention. The method comprises the following steps:

s31: the server receives first identification information of the first screen and second identification information of the second screen from the terminal.

S32: the server inquires first imaging parameters of the first screen according to the first identification information and inquires second imaging parameters of the second screen according to the second identification information.

S33: the server judges whether the second imaging parameters are the same as the first imaging parameters or not, and sends the judgment result to the terminal, so that the terminal controls the second screen to image based on the first imaging parameters when receiving the judgment result that the second imaging parameters are the same as the first imaging parameters.

S34: and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the server sends the second imaging parameter to the terminal so that the terminal controls the second screen to image based on the second imaging parameter.

In this embodiment, the server determines whether the imaging parameters of the two screens before and after replacement are the same according to the screen identification information sent by the terminal, and determines whether to issue the imaging parameters of the screen after replacement to the terminal according to the determination result, so that it can be ensured that the terminal automatically images based on the matched imaging parameters when the screen is replaced, the imaging effect is ensured, and the user experience is improved.

Please refer to fig. 4, which illustrates a terminal according to a first embodiment of the present invention. The terminal 40 includes a processor 41, a communicator 42, a memory 43, and a first screen 44, and the communicator 42, the memory 43, and the first screen 44 are connected to the processor 41 through a communication bus 45.

The memory 43 is used to store first identification information of the first screen 44.

The processor 41 is configured to monitor whether the first screen 44 is replaced, and acquire second identification information of the second screen when the first screen 44 is replaced with the second screen.

The communicator 42 is configured to transmit the second identification information and the first identification information to the server 46.

The processor 41 is further configured to obtain a determination result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen. There are two ways for processor 41 to obtain the determination result: firstly, the server 46 determines whether the second imaging parameter is the same as the first imaging parameter, and sends the determination result to the communicator 42, and the processor 41 controls the communicator 42 to receive the determination result from the server 46 whether the second imaging parameter is the same as the first imaging parameter; secondly, the communicator 42 receives the second imaging parameters of the second screen from the server, and the processor 41 determines whether the second imaging parameters are the same as the first imaging parameters.

When a determination result that the second imaging parameter is the same as the first imaging parameter is obtained, the processor 41 is configured to control the second screen to perform imaging based on the first imaging parameter.

When a determination result that the second imaging parameter is different from the first imaging parameter is obtained, the processor 41 is configured to control the communicator 42 to receive the second imaging parameter from the server 46, and control the second screen to perform imaging based on the second imaging parameter.

The first imaging parameter and the second imaging parameter have the same parameter type, and the parameter type includes at least one of white balance, definition, contrast parameter, color saturation and brightness.

The above structural elements of the terminal 40 of the present embodiment correspond to the imaging method of the adaptive screen of the above embodiment, and have the same technical effects.

It should be understood that the above embodiments can be combined with each other, and the above functions, if implemented in the form of software functions and sold or used as a standalone product, can be stored in a storage medium readable by an electronic device, that is, the present invention also provides a storage device storing program data, which can be executed to implement the method of the above embodiments, and the storage device can be, for example, a usb disk, an optical disk, a server, etc. That is, the embodiments of the present invention may be embodied in the form of a software product including instructions for causing an intelligent terminal to perform all or part of the steps of the methods described in the embodiments.

That is, the invention can realize the acquisition and update of the imaging parameters through the script or program which can run on the terminal operating system, only the operating system is required to support the running, the platform code is not required to be changed, the portability is strong, and the hardware cost is not increased.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent flow transformations made by using the contents of the specification and the drawings, such as the mutual combination of technical features between various embodiments, or the direct or indirect application to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A method of imaging an adaptive screen, the method comprising:

the terminal acquires first identification information of a first screen installed by the terminal;

when the situation that the first screen is changed into a second screen is monitored, the terminal acquires second identification information of the second screen, sends the second identification information and the first identification information to a server, and acquires a judgment result of whether second imaging parameters of the second screen are the same as first imaging parameters of the first screen;

when a judgment result that the second imaging parameter is the same as the first imaging parameter is obtained, the terminal controls the second screen to perform imaging based on the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the terminal receives the second imaging parameter from the server and controls the second screen to image based on the second imaging parameter.

2. The method of claim 1,

the terminal obtains a judgment result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen, and the judgment result comprises the following steps:

the terminal receives a judgment result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen from the server; or,

the terminal receives second imaging parameters of the second screen from the server;

and the terminal judges whether the second imaging parameters are the same as the first imaging parameters.

3. The method of claim 1,

the terminal monitoring first screen is changed into the second screen, includes:

the terminal acquires identification information of a current installation screen;

the terminal judges whether the identification information of the current installation screen is first identification information;

and if not, the terminal judges that the first screen is replaced by a second screen.

4. The method according to claim 1, wherein the terminal stores a first imaging parameter of the first screen in advance, or receives the first imaging parameter from the server when a determination result that the second imaging parameter is the same as the first imaging parameter is obtained.

5. The method of claim 1, wherein the first imaging parameter and the second imaging parameter comprise the same type of parameter, and wherein the type of parameter comprises at least one of white balance, sharpness, contrast parameter, color saturation, and brightness.

6. A terminal, characterized in that the terminal comprises a processor, and a communicator connected with the processor, a memory, a first screen,

the memory is used for storing first identification information of the first screen;

the processor is used for monitoring whether the first screen is replaced or not and acquiring second identification information of a second screen when the first screen is replaced by the second screen;

the communicator is used for sending the second identification information and the first identification information to the server;

the processor is further configured to obtain a judgment result whether the second imaging parameter of the second screen is the same as the first imaging parameter of the first screen;

when a judgment result that the second imaging parameter is the same as the first imaging parameter is obtained, the processor is used for controlling a second screen to perform imaging based on the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the processor is used for controlling the communicator to receive the second imaging parameter from the server and controlling the second screen to image based on the second imaging parameter.

7. The terminal of claim 6,

the processor controls the communicator to receive a judgment result of whether the second imaging parameter is the same as the first imaging parameter from the server; or,

the communicator receives second imaging parameters of the second screen from the server, and the processor determines whether the second imaging parameters are the same as the first imaging parameters.

8. The terminal of claim 6, wherein the first imaging parameters and the second imaging parameters comprise the same parameter type, and the parameter type comprises at least one of white balance, sharpness, contrast parameters, color saturation, and brightness.

9. A method of imaging an adaptive screen, the method comprising:

the server receives first identification information of a first screen and second identification information of a second screen from the terminal;

the server inquires a first imaging parameter of the first screen according to the first identification information and inquires a second imaging parameter of the second screen according to the second identification information;

the server judges whether the second imaging parameters are the same as the first imaging parameters;

the server sends the judgment result to the terminal so that the terminal controls the second screen to image based on the first imaging parameter when receiving the judgment result that the second imaging parameter is the same as the first imaging parameter;

and when a judgment result that the second imaging parameter is different from the first imaging parameter is obtained, the server sends the second imaging parameter to the terminal so that the terminal controls the second screen to image based on the second imaging parameter.

10. A storage device, characterized in that the storage device stores program data that can be executed to implement the method of any of claims 1-5.