CN111050152B

CN111050152B - Image processing method, display device and electronic device

Info

Publication number: CN111050152B
Application number: CN201911391885.1A
Authority: CN
Inventors: 董芳菲
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2023-03-21
Anticipated expiration: 2039-12-30
Also published as: CN111050152A

Abstract

The application provides an image processing method, display equipment and electronic equipment, wherein the method comprises the steps of obtaining a first image, processing the first image into a plurality of adjacent sub-images, determining a target sub-image from the plurality of sub-images, wherein the number of the plurality of sub-images is a first number, the number of the target sub-images is a second number, the second number is smaller than or equal to the first number, displaying the target sub-image in a first effect in the first image of a target area, and displaying the target sub-image in a candidate area; wherein the positional relationship of the target sub-image displayed in the candidate area is different from the positional relationship of the target sub-image displayed in the target area, and if an input operation satisfying a condition is obtained, the target sub-image is displayed in the first image of the target area with a second effect, the first effect being different from the second effect; the display mode of the first image is enriched, and the diversity display requirement is met.

Description

Image processing method, display device and electronic device

Technical Field

The present application relates to the field of information processing technologies, and in particular, to an image processing method, a display device, and an electronic device.

Background

The display device is capable of presenting images, typically in a full screen static presentation. The display mode is single, and the requirement of diversified display cannot be met.

Disclosure of Invention

In view of the above, the present application provides an image processing method, a display device and an electronic device to solve the above technical problems.

In order to achieve the above purpose, the present application provides the following technical solutions:

an image processing method comprising:

acquiring a first image, and processing the first image into a plurality of adjacent sub-images, wherein the number of the sub-images is a first number;

determining target sub-images from the plurality of sub-images, wherein the number of the target sub-images is a second number, and the second number is smaller than or equal to the first number;

displaying the target sub-image in the first image of the target area with a first effect;

displaying the target sub-image in a candidate area; the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area;

and if the input operation meeting the condition is obtained, displaying the target sub-image in the first image of the target area with a second effect, wherein the first effect is different from the second effect.

Preferably, the target sub-image of the first effect display and the other sub-images of the plurality of sub-images except the target sub-image have a first visual difference, and the target sub-image of the second effect display and the other sub-images of the plurality of sub-images except the target sub-image have a second visual difference, wherein the first visual difference is greater than the second visual difference;

wherein the first effect comprises at least one of:

the first effect is used for representing the effect displayed by the outline of the target sub-image;

or the first effect is used for representing the effect of displaying the target sub-image in the target color;

or the first effect is used for representing the effect of displaying the target sub-image with the target definition.

Preferably, the method further comprises the following steps:

determining that the second number is less than the first number, displaying sub-images other than the target sub-image in the first image of the target area with the second effect.

Preferably, the displaying the target sub-image in the candidate region includes:

and utilizing a first projection module on a display device with the target area to project and display the target sub-image on a candidate area in the same plane as the display device or a candidate area in a different plane.

Preferably, the method further comprises the following steps:

acquiring a first input operation aiming at a target sub-image in the candidate area, and acquiring a second input operation aiming at a target position in the target area; wherein the first input operation comprises a rotation operation, and/or a look-over operation, and/or a selection operation;

correspondingly, if the input operation meeting the condition is obtained, displaying the target sub-image in the first image of the target area with a second effect comprises:

if the target position matches the target sub-image of the first input operation, displaying the target sub-image of the first input operation with a second effect at the target position in the first image of the target area.

projecting and displaying the target sub-image on a candidate area in the same plane as the display device or an area in a different plane by using a second projection module on an electronic device which is communicated with the display device with the target area;

or, the displaying the target sub-image in the candidate region includes:

displaying the target sub-image on a display unit of an electronic device in communication with a display device having the target area; wherein a display area of the display unit is smaller than the target area.

A display device, comprising:

a first display screen having a target area for displaying a first image on the target area;

a first processor configured to acquire the first image, process the first image into a plurality of adjacent sub-images, determine a target sub-image from the plurality of sub-images, display the target sub-image in the first image of the target area with a first effect, display the target sub-image in a candidate area, and display the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained;

the number of the plurality of sub-images is a first number, the number of the target sub-images is a second number, and the second number is smaller than or equal to the first number;

the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area, and the first effect is smaller than the second effect.

Preferably, the method further comprises the following steps:

and the first projection module is used for projecting and displaying the target sub-image on a candidate area which is in the same plane with the display equipment or a candidate area which is in a different plane.

Preferably, the method further comprises the following steps:

a first acquisition module having an acquisition region that matches a projection region of the first projection module; the projection region includes the candidate region;

the first acquisition module is used for monitoring a first input operation aiming at a target sub-image in the projection area, wherein the first input operation comprises a rotation operation, and/or a turning-over operation, and/or a selection operation;

the first processor is further used for acquiring a second input operation aiming at a target position in the target area;

correspondingly, the first processor displays the target sub-image in the first image of the target area with a second effect if the input operation satisfying the condition is obtained, and the method comprises the following steps:

An electronic device, comprising:

a communication interface;

the second processor is used for acquiring a first image, processing the first image into a plurality of adjacent sub-images, determining a target sub-image from the plurality of sub-images, and controlling the display equipment to display the target sub-image in the first image of a target area with a first effect through the communication interface;

the second processor is further configured to display the target sub-image in a candidate area, and if an input operation satisfying a condition is obtained, control the display device to display the target sub-image in the first image of the target area with a second effect through the communication interface;

the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area, and the first effect is different from the second effect.

By the technical scheme, the image processing method includes the steps that a first image is obtained, the first image is processed into a plurality of adjacent sub-images, the number of the sub-images is a first number, a target sub-image is determined from the sub-images, the number of the target sub-images is a second number, the second number is smaller than or equal to the first number, the target sub-image is displayed in the first image of a target area in a first effect, and the target sub-image is displayed in a candidate area; wherein the positional relationship of the target sub-image displayed in the candidate area is different from the positional relationship of the target sub-image displayed in the target area, and if an input operation satisfying a condition is obtained, the target sub-image is displayed in the first image of the target area with a second effect, the first effect being different from the second effect; therefore, the target sub-image can be determined in the first image and respectively displayed in the target area and the candidate area, and the target sub-image is displayed in the first image with the second effect after the input operation meeting the conditions is obtained.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on the provided drawings without creative efforts.

Fig. 1 is a schematic flowchart of an image processing method according to an embodiment of the present application;

FIG. 2a is a diagram illustrating processing of a first image into a plurality of sub-images according to an example of an embodiment of a method of the present application;

FIG. 2b is a diagram illustrating processing of a first image into a plurality of sub-images according to another example of an embodiment of a method of the present application;

FIG. 3 is a schematic flow chart of an image processing method according to another embodiment of the present application;

FIG. 4 is a schematic flow chart of an image processing method according to another embodiment of the present application;

FIG. 5 is a schematic flow chart of an image processing method according to another embodiment of the present application;

FIG. 6a is a diagram illustrating a display device displaying a plurality of sub-images and a candidate region displaying a target sub-image according to an example of yet another embodiment of the present application;

FIG. 6b is a schematic diagram of a display device displaying a plurality of sub-images and a target sub-image according to an example of another embodiment of the present application;

FIG. 6c is a schematic diagram illustrating a display device displaying a first image according to an example of yet another embodiment of the present application;

FIG. 7 is a flowchart illustrating an image processing method according to another embodiment of the present application;

FIG. 8 is a flowchart illustrating an image processing method according to another embodiment of the present application;

fig. 9 is a schematic structural diagram of a display device according to an embodiment of the present application;

fig. 10 is a schematic structural diagram of a display device according to another embodiment of the present application;

fig. 11 is a schematic structural diagram of a display device according to another embodiment of the present application;

fig. 12 is a schematic structural diagram of an electronic device according to an embodiment of an apparatus of the present application;

fig. 13 is a schematic structural diagram of an electronic device according to another embodiment of the present application;

fig. 14 is a schematic structural diagram of an electronic device according to another embodiment of the present application;

fig. 15 is a schematic structural diagram of an electronic device according to another embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The present application provides an image processing method, as shown in fig. 1, the method comprising the steps of:

step 101: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

the image processing method provided by the application can be applied to display equipment, and the first image can be an image currently displayed by the display equipment. The image processing method provided by the application can also be applied to electronic equipment which is communicated with the display equipment, and the first image can be an image which is sent to the display equipment by the electronic equipment or an image which is acquired from the display equipment and is currently displayed by the display equipment.

After the first image is acquired, the first image can be processed into a plurality of adjacent sub-images. It should be noted that, the number of the plurality of sub-images is a first number, specifically, the first image may be processed into a plurality of adjacent sub-images based on a preset segmentation policy, and the segmentation policy may be a rule that the first image is processed into a plurality of sub-images in X1 rows and Y1 columns, where X1 × Y1= N, N ≧ 2, and N is the first number.

As an example, the first image P1 is processed as a plurality of sub-images of 5 rows and 8 columns as shown in fig. 2 a. It is understood that the first image P1 shown in fig. 2a is a pure white image, which does not mean that the real first image is a pure white image, and fig. 2a mainly shows a segmentation manner for the first image.

The segmentation strategy can also process the first image into a plurality of sub-images of X2 rows and Y2 columns by imitating the jigsaw path, wherein X2Y 2= N, N ≧ 2, N is a first number. As another example, as shown in FIG. 2b, the simulated puzzle path treats the first image as a plurality of sub-images of 4 rows and 5 columns. It is understood that the first image P1 shown in fig. 2b is a pure white image, which does not mean that the real first image is a pure white image, and fig. 2b mainly shows a segmentation manner for the first image.

The present application is not limited to processing the first image using the above two segmentation strategies, and other segmentation strategies may be used as long as it is ensured that the first image is processed into a plurality of sub-images.

Step 102: determining a target sub-image from the plurality of sub-images;

the number of the target sub-images is a second number, the second number is smaller than or equal to the first number, and the second number is larger than or equal to 1.

Specifically, a random algorithm may be used to randomly determine the second number of target sub-images from the plurality of sub-images, or to determine the second number of target sub-images within the preset area from the plurality of sub-images. The preset area may be a middle area, an upper left corner area, an upper right corner area, or other various areas of the first image.

Step 103: displaying the target sub-image in the first image of the target area with a first effect;

the target area is a display area on the display device for displaying the first image.

Step 104: displaying the target sub-image in a candidate area;

the target sub-image is displayed in the first image of the target area with a first effect and the target sub-image is displayed in the candidate area. The candidate region is different from the target region, and the candidate region is another region different from the target region, and may be specifically located at a position other than the display device.

And the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area. That is, when the target sub-image is displayed in the candidate area, the positional relationship of the target sub-image in the target area is at least partially disturbed so as to be distinguished from the positional relationship displayed in the target area.

Step 105: displaying the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained.

The input operation can characterize the operation of matching the target sub-image of the candidate region to the target position of the target region, and the condition can characterize that the target sub-image corresponding to the input operation correctly matches the target position of the target region, namely that the target sub-image corresponding to the input operation can correctly match the first image.

In the present application, the first effect and the second effect are different to distinguish different display effects of the target sub-image before and after the input operation satisfying the condition is obtained.

Therefore, in this embodiment, a first image is acquired, the first image is processed into a plurality of adjacent sub-images, the number of the plurality of sub-images is a first number, a target sub-image is determined from the plurality of sub-images, the number of the target sub-image is a second number, the second number is smaller than or equal to the first number, the target sub-image is displayed in the first image of a target area with a first effect, and the target sub-image is displayed in a candidate area; displaying the target sub-image in the first image of the target area with a second effect if the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area, wherein the first effect is different from the second effect; therefore, the target sub-image can be determined in the first image and respectively displayed in the target area and the candidate area, and the target sub-image is displayed in the first image with the second effect after the input operation meeting the conditions is obtained.

In this application, the first effect may be used to characterize an effect displayed with the outline of the target sub-image. Or, the first effect may be used to represent an effect of the target sub-image being displayed in a target color;

the target color may be a predetermined color, and may be various colors such as white and black.

Alternatively, the first effect may be used to characterize an effect of the target sub-image being displayed with a target definition.

The target sharpness may also be predetermined, such as setting the target sharpness to ten percent of the sharpness of the acquired first image.

In this application, when the second number is equal to the first number, it is described that all the sub-images in the first image are determined as the target sub-images, and when the second number is smaller than the first number, it is described that some of the sub-images in the first image are determined as the target sub-images. And when the second number is smaller than the first number, the first image also has other sub-images besides the target sub-image. Then, the target sub-image of the first effect display and the other sub-images of the plurality of sub-images other than the target sub-image have a first visual difference, and the target sub-image of the second effect display and the other sub-images of the plurality of sub-images other than the target sub-image have a second visual difference.

Wherein the first visual difference is greater than the second visual difference.

In this application, in one mode, the display effect of the target sub-image displayed with the second effect may be inconsistent with the display effect of the other sub-images in the plurality of sub-images except the target sub-image, that is, the second visual difference is a non-zero difference. In another mode, the display effect of the target sub-image displayed by the second effect and the sub-images other than the target sub-image in the plurality of sub-images may be consistent, that is, the second visual difference is zero degree difference.

Correspondingly, another embodiment of the present invention provides an image processing method, as shown in fig. 3, the method includes the following steps:

step 301: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

the number of the plurality of sub-images is a first number.

Step 302: determining a target sub-image from the plurality of sub-images;

the number of the target sub-images is a second number.

Step 303: determining that the second number is less than the first number, displaying sub-images other than the target sub-image in the first image of the target area with the second effect;

in this embodiment, the second effect may be used to characterize the effect of displaying the outline of the sub-image, and displaying the sub-image normally within the outline of the sub-image, where the normal display means the same display as the display of the first image before processing in the target area.

Step 304: displaying the target sub-image in the first image of the target area with a first effect;

step 305: displaying the target sub-image in a candidate area;

and the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area.

Step 306: displaying the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained.

In this embodiment, the display effect of the sub-images other than the target sub-image in the first image is the second effect, the display effect of the target sub-image in the first image is the first effect before the input operation meeting the condition is obtained, the display effect of the target sub-image in the first image is different from the second effect, and the target sub-image is displayed in the first image of the target area with the second effect after the input operation meeting the condition is obtained, that is, the display effect of the target sub-image in the first image after the input operation meeting the condition is obtained is consistent with the display effect of the sub-images other than the target sub-image in the first image, which can represent that the target sub-image has been matched into the first image through the input operation, and improve the display effect.

In the present application, there are various ways to display the target sub-image in the candidate region, and the following description is made by several embodiments of the method respectively.

In this embodiment, a first implementation manner of displaying a target sub-image in a candidate area is mainly described, as shown in fig. 4, the method includes the following steps:

step 401: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

the number of the plurality of sub-images is a first number.

Step 402: determining a target sub-image from the plurality of sub-images;

the number of the target sub-images is a second number, and the second number is smaller than or equal to the first number.

Step 403: displaying the target sub-image in the first image of the target area with a first effect;

step 404: utilizing a first projection module on a display device with the target area to project and display the target sub-image on a candidate area which is in the same plane with the display device or a candidate area which is in a different plane;

the image processing method provided by the embodiment can be applied to a display device, wherein the display device is provided with a first projection module, and the first projection module can be used for projecting and displaying the target sub-image on a candidate area in the same plane as the display device or a candidate area in a different plane. And the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area.

The candidate region is another region distinguished from the display device. As a specific example, if the display device is disposed on a wall, the candidate area may also be an area on the wall, such as another area adjacent to the disposed area of the display device. Alternatively, the candidate area may be an area on the ground where the wall is located.

In this embodiment, the projection region of the first projection module includes the candidate region.

Step 404 is a first implementation of displaying the target sub-image in the candidate area.

Step 405: displaying the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained.

Wherein the first effect and the second effect are different.

Corresponding to the method embodiment of fig. 4, another method embodiment of the present application provides an image processing method, as shown in fig. 5, including the following steps:

step 501: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

the number of the plurality of sub-images is a first number.

Step 502: determining a target sub-image from the plurality of sub-images;

Step 503: displaying the target sub-image in the first image of the target area with a first effect;

step 504: utilizing a first projection module on a display device with the target area to project and display the target sub-image on a candidate area which is in the same plane with the display device or a candidate area which is in a different plane;

Step 505: acquiring a first input operation aiming at a target sub-image in the candidate area, and acquiring a second input operation aiming at a target position in the target area;

in this embodiment, the target sub-image is displayed in the candidate region, and the user can perform the first input operation on the target sub-image displayed in the candidate region. Preferably, in order to facilitate the user to perform the first input operation on the target sub-image of the candidate region, the total display area of the target sub-image in the candidate region may be larger than the total display area of the target sub-image in the target region.

The first input operation is an operation on the target sub-image, and may specifically include a rotation operation, and/or a look-over operation, and/or a selection operation.

The rotation operation is characterized as an operation of changing the display direction of the target sub-image, such as changing a target sub-image displayed in a reverse direction into a target sub-image displayed in a forward direction through the rotation operation.

The view operation is characterized as an operation of changing the display mode of the occluded target sub-image, such as changing the target sub-image displayed with the back side facing upwards into a target sub-image displayed with the front side facing upwards through the view operation.

The selection operation characterizes an operation of selecting a target sub-image.

The second input operation is an operation of determining a target position in the first image of the target area.

Step 506: displaying a target sub-image of the first input operation with a second effect at the target position in the first image of the target area if the target position matches the target sub-image of the first input operation.

If the target position in the first image of the target area matches the target sub-image of the first input operation, indicating that the target sub-image supplemented by the first input operation at the target position is correct, the target sub-image of the first input operation is displayed with a second effect at the target position in the first image.

Step 506 is the step of displaying a specific implementation of the target sub-image in the first image of the target area with a second effect if the input operation satisfying the condition is obtained.

From the perspective of the user, the user can select a target sub-image in the candidate area, determine a target position of the target sub-image in the display area of the display device, and if the target position matches the target sub-image, the user can see that the display effect of the target sub-image is switched from the first effect to the second effect on the display device. As a specific example, as shown in fig. 6a to 6c, the display device 100 displays the target sub-image P11 in white in the first target of the target area, displays the target sub-image P11 at the candidate area H1, and causes the display device to display the target sub-image in the first image with the second effect by the input operation of the user, thereby finally forming a complete first image.

As shown in fig. 6a-6c, the display device no longer has the target sub-image in the candidate area after displaying the complete first image. That is to say, in another embodiment of the method of the present application, if the display device determines that the target position correctly matches the target sub-image of the first input operation, the display device controls the target sub-image of the first input operation not to be displayed on the candidate area. That is, the user matches the target sub-images of the candidate regions to the correct positions of the first image through the first input operation and the second input operation, the correctly matched target sub-images will disappear from the candidate regions, and the number of target sub-images of the candidate regions will be reduced accordingly. And if the display equipment determines that the target position does not correctly match the target sub-image of the first input operation, controlling the target sub-image of the first input operation to be continuously displayed on the candidate area. That is, the user does not match the target sub-image of the candidate region to the correct position of the first image through the first input operation and the second input operation, the target sub-image which is not correctly matched will continue to be displayed in the candidate region, and the number of target sub-images of the candidate region remains unchanged.

Optionally, in this embodiment, it is determined that all target sub-images of the candidate region are correctly matched into the target region through the first input operation and the second input operation, and then the target region is controlled to display the complete first image with the second effect, where the specific display effect may be as shown in fig. 6 c.

A further method embodiment of the present application provides an image processing method, and in this embodiment, relates to a second implementation manner of displaying a target sub-image in a candidate region, as shown in fig. 7, the method includes the following steps:

step 701: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

the number of the plurality of sub-images is a first number.

Step 702: determining a target sub-image from the plurality of sub-images;

Step 703: displaying the target sub-image in the first image of the target area with a first effect;

step 704: projecting and displaying the target sub-image on a candidate area in the same plane as the display device or an area in a different plane by using a second projection module on an electronic device which is communicated with the display device with the target area;

the image processing method provided by the embodiment can be applied to the electronic equipment, and the electronic equipment can be communicated with the display equipment with the target area. The electronic device is provided with a second projection module, and the target sub-image can be projected and displayed on the candidate area in the same plane with the display device or on the candidate area in a different plane by using the second projection module. And the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area.

In this embodiment, the projection region of the second projection module includes the candidate region.

Step 705: displaying the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained.

The input operation includes a first input operation on the target sub-image in the candidate region, and may specifically include a rotation operation, and/or a flip operation, and/or a selection operation.

The electronic device can send the target sub-image corresponding to the first input operation to the display device, the display device determines the target position in the target area based on the second input operation, so that the target sub-image of the first input operation is matched at the target position, if the matching is correct, a matching success instruction is sent to the electronic device, and the electronic device can control the display device to display the target sub-image corresponding to the first input operation in the first image of the target area in a second effect. If the matching is wrong, a matching failure instruction is sent to the electronic device, and the electronic device controls the display device to maintain a first effect in the second image of the target area to display the target sub-image corresponding to the first input operation, namely the target sub-image corresponding to the first input operation in the first image of the target area by the display device is not displayed with the second effect.

In another embodiment of the present application, after receiving the matching success instruction, the electronic device may control the target sub-image of the first input operation to disappear on the candidate area. That is, the user matches the target sub-images of the candidate regions to the correct positions of the first image through the first input operation and the second input operation, the correctly matched target sub-images will disappear from the candidate regions, and the number of target sub-images of the candidate regions will be reduced accordingly. The electronic device may control the target sub-image of the first input operation to continue to be displayed on the candidate area after receiving the matching failure instruction. That is, the user does not match the target sub-image of the candidate region to the correct position of the first image through the first input operation and the second input operation, the unmatched target sub-image will continue to be displayed in the candidate region, and the number of target sub-images of the candidate region remains unchanged.

From the perspective of the user, the user can select a target sub-image in the candidate area, determine a target position of the target sub-image in the display area of the display device, and if the target position matches the target sub-image, the user can see that the display effect of the target sub-image is switched from the first effect to the second effect on the display device, and the target sub-image in the candidate area is reduced.

Optionally, in this embodiment, it is determined that all target sub-images of the candidate region are correctly matched into the target region through the first input operation and the second input operation, and the target region is controlled to display the complete first image with the second effect.

Yet another method embodiment of the present application provides an image processing method, and in this embodiment, relates to a third implementation manner of displaying a target sub-image in a candidate area, as shown in fig. 8, the method includes the following steps:

step 801: acquiring a first image, and processing the first image into a plurality of adjacent sub-images;

wherein the number of the plurality of sub-images is a first number.

Step 802: determining a target sub-image from the plurality of sub-images;

the number of the target sub-images is a second number; wherein the second number is less than or equal to the first number.

Step 803: displaying the target sub-image in the first image of the target area with a first effect;

step 804: displaying the target sub-image on a display unit of an electronic device in communication with a display device having the target area;

the image processing method provided by the embodiment can be applied to the electronic equipment, and the electronic equipment can be communicated with the display equipment with the target area. The electronic device is provided with a display unit capable of displaying the target sub-image. In this embodiment, the display unit of the electronic device is used as the candidate area, and the positional relationship of the target sub-image displayed on the display unit is different from the positional relationship of the target sub-image displayed on the target area.

The display area of the display unit is smaller than the target area of the display device, so that a user can see the target sub-image on the handheld electronic device, and the target sub-image can be conveniently input.

Step 805: and if the input operation meeting the condition is obtained, displaying the target sub-image in the first image of the target area with a second effect.

The input operation comprises a first input operation aiming at the target sub-image on the display unit, and specifically comprises a rotation operation, and/or a turning operation, and/or a selection operation.

The electronic device can send the target sub-image corresponding to the first input operation to the display device, the display device determines the target position in the target area based on the second input operation, the target position is matched with the target sub-image of the first input operation, if the matching is correct, a matching success command is sent to the electronic device, and the electronic device can control the display device to display the target sub-image corresponding to the first input operation in the first image of the target area with the second effect. If the matching is wrong, a matching failure instruction is sent to the electronic device, and the electronic device controls the display device to maintain a first effect in the second image of the target area to display the target sub-image corresponding to the first input operation, namely the target sub-image corresponding to the first input operation in the first image of the target area by the display device is not displayed with the second effect.

Wherein the second input operation is an operation performed at a target position of the target area.

In another embodiment of the method, after receiving the matching success command, the electronic device may control the target sub-image of the first input operation not to be displayed on the display unit. That is, if the user matches the target sub-image of the display unit to the correct position of the first image through the first input operation and the second input operation, the correctly matched target sub-image will disappear from the display unit, and the number of target sub-images of the display unit will be reduced accordingly. The electronic device may control the target sub-image of the first input operation to continue to be displayed on the display unit after receiving the matching failure instruction. That is, the user does not match the target sub-image of the candidate region to the correct position of the first image through the first input operation and the second input operation, the unmatched target sub-image will continue to be displayed on the display unit, and the number of displayed target sub-images remains unchanged.

From the perspective of a user, the user can select a target sub-image on a display unit of the electronic device, determine a target position of the target sub-image in a display area of the display device, and if the target position matches the target sub-image, the user can see that the display effect of the target sub-image is switched from a first effect to a second effect on the display device, and the target sub-image of the candidate area is reduced.

Optionally, in this embodiment, if it is determined that all the target sub-images on the display unit are correctly matched in the target area through the first input operation and the second input operation, the target area is controlled to display the complete first image with the second effect.

Corresponding to the image processing method, the embodiment of the apparatus of the present application further provides a display device, which is described below by using several embodiments of the apparatus respectively.

An apparatus embodiment of the present application provides a display device, as shown in fig. 9, the display device 100 includes: a first display 110, a first processor 120; wherein:

a first display 110 having a target area for displaying a first image on the target area.

A first processor 120, configured to obtain the first image, process the first image into a plurality of adjacent sub-images, determine a target sub-image from the plurality of sub-images, display the target sub-image in the first image of the target area with a first effect, display the target sub-image in a candidate area, and display the target sub-image in the first image of the target area with a second effect if an input operation satisfying a condition is obtained.

After the first image is acquired, the first image can be processed into a plurality of adjacent sub-images. It should be noted that, the number of the plurality of sub-images is a first number, specifically, the first image may be processed into a plurality of adjacent sub-images based on a preset segmentation policy, and the segmentation policy may be that the first image is regularly processed into a plurality of sub-images in X1 rows and Y1 columns, where X1 × Y1= N, N ≧ 2, and N is the first number.

The segmentation strategy can also process the first image into a plurality of sub-images of X2 rows and Y2 columns by imitating the jigsaw path, wherein X2Y 2= N, N ≧ 2, N is a first number.

Specifically, the first processor 120 may randomly determine a second number of target sub-images from the plurality of sub-images by using a random algorithm, or determine a second number of target sub-images within the preset area from the plurality of sub-images. The preset area may be a middle area, an upper left corner area, an upper right corner area, or other various areas of the first image.

In the present application, a target sub-image is displayed in a first image of a target area with a first effect, and the target sub-image is displayed in a candidate area. The candidate region is different from the target region, and the candidate region is another region different from the target region, and may be specifically located at a position other than the display device.

The input operation can represent an operation of matching the target sub-image of the candidate region to the target position of the target region, and the condition can represent that the target sub-image corresponding to the input operation correctly matches the target position of the target region, that is, the target sub-image corresponding to the input operation can correctly match the first image.

In this application, the first effect may be used to characterize an effect displayed with the outline of the target sub-image.

Or, the first effect may be used to represent an effect of the target sub-image being displayed in a target color;

Alternatively, the first effect may be used to characterize the effect of the target sub-image being displayed with the target definition.

Correspondingly, in another apparatus embodiment of the present application, the first processor is further configured to determine that the second number is smaller than the first number, and display sub-images other than the target sub-image in the first image of the target area with the second effect.

Yet another apparatus embodiment of the present application provides a display device, as shown in fig. 10, the display device 100 including: a first display 110, a first processor 120, and a first projection module 130; wherein:

The first processor 120 is configured to obtain the first image, process the first image into a plurality of adjacent sub-images, determine a target sub-image from the plurality of sub-images, display the target sub-image in the first image of the target area with a first effect, and control the first projection module 130 to project and display the target sub-image on a candidate area on the same plane as the display device or on a candidate area on a different plane.

The first processor 120 is further configured to determine to obtain an input operation satisfying a condition that the target sub-image is displayed with a second effect in the first image of the target area

Wherein the first effect and the second effect are different.

Yet another apparatus embodiment of the present application provides a display device, as shown in fig. 11, the display device 100 including: a first display 110, a first processor 120, a first projection module 130, and a first acquisition module 140; wherein:

A first acquisition module 140 having an acquisition area that matches a projection area of the first projection module 130; the projection region contains the candidate region, and the first acquisition module is enabled to monitor the input operation in the candidate region by matching the acquisition region with the projection region.

The first acquisition module 140 is configured to monitor a first input operation on a target sub-image in the projection region;

wherein the first input operation comprises a rotation operation, and/or a look-over operation, and/or a selection operation.

The first processor is further configured to display a target sub-image of the first input operation at the target position in the first image of the target area with a second effect when the target area acquires a second input operation for the target position and determines that the target position matches a target sub-image of the first input operation.

In another embodiment of the apparatus of the present application, the first processor is further configured to determine that the target position correctly matches the target sub-image of the first input operation, control the target sub-image of the first input operation not to be displayed on the candidate region, and control the target sub-image of the first input operation to be continuously displayed on the candidate region if it is determined that the target position incorrectly matches the target sub-image of the first input operation.

Corresponding to the image processing method, the embodiment of the apparatus of the present application further provides an electronic device, which is described below with several embodiments of the apparatus.

An embodiment of an apparatus of the present application provides an electronic device, as shown in fig. 12, an electronic device 200 includes: a communication interface 210, a second processor 220; wherein:

the second processor 220 is configured to obtain a first image, process the first image into a plurality of adjacent sub-images, determine a target sub-image from the plurality of sub-images, and control the display device to display the target sub-image in the first image of a target area with a first effect through the communication interface 210.

It should be noted that, the number of the plurality of sub-images is a first number, the second processor 220 may specifically process the first image into a plurality of adjacent sub-images based on a preset segmentation policy, and the segmentation policy may be to regularly process the first image into a plurality of sub-images in X1 rows and Y1 columns, where X1 × Y1= N, N ≧ 2, and N is the first number.

The segmentation strategy can also process the first image into a plurality of sub-images in X2 rows and Y2 columns by simulating the jigsaw path, wherein X2X Y2= N, N is more than or equal to 2, and N is the first number.

The second processor 220 is further configured to display the target sub-image in the candidate area, and if an input operation satisfying a condition is obtained, control the display device to display the target sub-image in the first image of the target area with a second effect through the communication interface.

Specifically, the second processor may randomly determine a second number of target sub-images from the plurality of sub-images by using a random algorithm, or determine a second number of target sub-images within the preset area from the plurality of sub-images. The preset area may be a middle area, an upper left corner area, an upper right corner area, or other various areas of the first image.

Thus, in this embodiment, a first image is obtained, the first image is processed into a plurality of adjacent sub-images, the number of the plurality of sub-images is a first number, a target sub-image is determined from the plurality of sub-images, the number of the target sub-image is a second number, the second number is smaller than or equal to the first number, the target sub-image is displayed in the first image of a target area with a first effect, and the target sub-image is displayed in a candidate area; wherein the positional relationship of the target sub-image displayed in the candidate area is different from the positional relationship of the target sub-image displayed in the target area, and if an input operation satisfying a condition is obtained, the target sub-image is displayed in the first image of the target area with a second effect, the first effect being different from the second effect; therefore, the target sub-image can be determined in the first image and respectively displayed in the target area and the candidate area, and the target sub-image is displayed in the first image with the second effect after the input operation meeting the conditions is obtained.

In this application, when the second number is equal to the first number, it is described that all the sub-images in the first image are determined as the target sub-images, and when the second number is smaller than the first number, it is described that some of the sub-images in the first image are determined as the target sub-images. And when the second number is smaller than the first number, the partial sub-image in the first image is determined as the target sub-image, and the first image also has other sub-images except the target sub-image. Then, the target sub-image of the first effect display and the sub-images of the plurality of sub-images other than the target sub-image have a first visual difference, and the target sub-image of the second effect display and the sub-images of the plurality of sub-images other than the target sub-image have a second visual difference.

In this application, in one mode, the display effect of the target sub-image displayed with the second effect may be inconsistent with the display effect of the other sub-images in the plurality of sub-images except the target sub-image, that is, the second visual difference is a non-zero difference. In another mode, the target sub-image displayed with the second effect and the sub-images other than the target sub-image in the plurality of sub-images may have the same display effect, that is, the second visual difference is zero degree difference.

Correspondingly, in another apparatus embodiment of the present application, the second processor is further configured to control the display device to display, in the first image of the target area, sub-images other than the target sub-image with the second effect, when it is determined that the second number is smaller than the first number.

Another apparatus embodiment of the present application provides an electronic device, and as shown in fig. 13, the electronic device 200 may include: a communication interface 210, a second processor 220, and a second projection module 230; wherein:

a second processor 220, configured to obtain a first image, process the first image into a plurality of adjacent sub-images, determine a target sub-image from the plurality of sub-images, and control the display device to display the target sub-image in the first image of a target area with a first effect through the communication interface 210;

the second processor 220 is further configured to control the second projection module 230 to project and display the target sub-image on a candidate area in the same plane as the display device or on an area in a different plane.

In this embodiment, the projection region of the second projection module 230 includes the candidate region.

The second processor 220 is further configured to control the display device to display the target sub-image in the first image of the target area with a second effect via the communication interface if an input operation satisfying a condition is obtained.

Another apparatus embodiment of the present application provides an electronic device, and as shown in fig. 14, the electronic device 200 may include: a communication interface 210, a second processor 220, a second projection module 230, and a second acquisition module 240;

A second acquisition module 240 having an acquisition area that matches a projection area of the second projection module 230; the projection region includes the candidate region, so that the second acquisition module 240 can monitor the input operation of the candidate region.

The second acquisition module 240 is configured to monitor a first input operation for the target sub-image in the projection region;

The selection operation characterizes an operation of selecting a target sub-image. The second processor 220 is further configured to send the target sub-image corresponding to the first input operation to the display device through the communication interface 210, where the display device determines a target position in the target area based on the second input operation, so that the target sub-image of the first input operation is matched at the target position, and if the matching is correct, sends a matching success instruction to the electronic device, and the second processor of the electronic device can control the display device to display the target sub-image corresponding to the first input operation in the first image of the target area with a second effect. If the matching is wrong, a matching failure instruction is sent to the electronic device, and a second processor of the electronic device controls the display device to maintain a first effect in the second image of the target area to display a target sub-image corresponding to the first input operation, namely the target sub-image corresponding to the first input operation in the first image of the target area is not displayed with the second effect.

In another embodiment of the apparatus of the present application, the second processor may be further configured to control the second projection module to prohibit displaying the target sub-image of the first input operation on the candidate region after receiving the matching success instruction, and the second processor may be further configured to control the second projection module to continue displaying the target sub-image of the first input operation on the candidate region after receiving the matching failure instruction.

Another apparatus embodiment of the present application provides an electronic device, and as shown in fig. 15, the electronic device 200 may include: a communication interface 210, a second processor 220, a second display 250; wherein:

the second processor 220 is also used to control the second display 250 to display the target sub-image.

In the present embodiment, the display area of the second display 250 is taken as a candidate area.

Wherein a display area of the second display is smaller than the target area.

The second processor 220 can send the target sub-image corresponding to the first input operation to the display device, the display device determines the target position in the target area based on the second input operation, so that the target sub-image of the first input operation is matched at the target position, if the matching is successful, a matching success instruction is sent to the electronic device, and the electronic device can control the display device to display the target sub-image in the first image of the target area with a second effect. And if the matching fails, sending a matching failure instruction to the electronic equipment, wherein the electronic equipment cannot control the display equipment to display the target sub-image in the first image of the target area with a second effect.

In another apparatus embodiment of the present application, after receiving the matching success instruction, the second processor of the electronic device may control the target sub-image of the first input operation not to be displayed on the second display 250. That is, if the user matches the target sub-image of the display unit to the correct position of the first image through the first input operation and the second input operation, the correctly matched target sub-image will disappear from the display unit, and the number of target sub-images of the display unit will be reduced accordingly. The second processor of the electronic device may control the target sub-image of the first input operation to continue to be displayed on the display unit after receiving the matching failure instruction. That is, the user unmatched the target sub-image of the candidate region to the correct position of the first image through the first input operation and the second input operation, the unmatched target sub-image will continue to be displayed on the display unit, and the number of displayed target sub-images remains unchanged.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other. The device disclosed by the embodiment corresponds to the method disclosed by the embodiment, so that the description is simple, and the relevant points can be referred to the method part for description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An image processing method comprising:

if an input operation satisfying a condition is obtained, displaying the target sub-image in the first image of the target area with a second effect, wherein the first effect is different from the second effect; the input operation characterizes an operation of matching a target sub-image of the candidate region to a target position of the target region; wherein the correctly matched target sub-image disappears from the candidate area.

2. The method of claim 1, the first effect displayed target sub-image and the other of the plurality of sub-images except the target sub-image having a first visual difference, the second effect displayed target sub-image and the other of the plurality of sub-images except the target sub-image having a second visual difference, wherein the first visual difference is greater than the second visual difference;

wherein the first effect comprises at least one of:

3. The method of claim 2, further comprising:

4. The method of claim 1, the displaying the target sub-image in a candidate region, comprising:

and utilizing a first projection module on a display device with the target area to project and display the target sub-image on a candidate area in the same plane with the display device or a candidate area in a different plane.

5. The method of claim 4, further comprising:

displaying a target sub-image of the first input operation with a second effect at the target position in the first image of the target area if the target position matches the target sub-image of the first input operation.

6. The method of claim 1, the displaying the target sub-image in a candidate region, comprising:

or, the displaying the target sub-image in the candidate region includes:

7. A display device, comprising:

the position relation of the target sub-image displayed in the candidate area is different from the position relation of the target sub-image displayed in the target area, and the first effect is different from the second effect; the input operation characterizes an operation of matching a target sub-image of the candidate region to a target position of the target region; wherein the correctly matched target sub-image disappears from the candidate area.

8. The display device of claim 7, further comprising:

9. The display device of claim 8, further comprising:

10. An electronic device, comprising:

a communication interface;