CN107743191B - Terminal, anti-shake photographing method thereof and storage device - Google Patents

Abstract

The invention discloses a terminal, an anti-shake photographing method thereof and a storage device. The anti-shake photographing method comprises the following steps: setting shooting to enter a full-size preview mode; caching a frame of clearest picture acquired by a camera in a full-size preview mode; receiving a photographing instruction, and photographing a frame of picture through a camera; and comparing the definition values of the frame of picture and the clearest picture, selecting one of the frames with the highest definition value as a picture, and outputting the picture. Therefore, the anti-shake photographing method and the anti-shake photographing device can improve the anti-shake photographing effect, improve the definition of the photographed picture, and have small required storage space.

Description

Terminal, anti-shake photographing method thereof and storage device

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a terminal, an anti-shake photographing method and a storage device thereof.

Background

With the development of electronic equipment technology, cameras have become the standard configuration of most mobile terminals and provide photographing functions for users, the photographing functions of the mobile terminals are used more and more frequently, great pleasure and convenience are brought to life and work of people, and pixels of the cameras are higher and higher, so that the users can take clear photos. Taking a smart phone as an example, after the user opens the camera software, the user only needs to align the lens with the shot object and then click the shutter icon displayed on the screen, and a photo can be obtained. However, the operation of clicking the screen usually causes the smartphone to shake slightly, the shaking process lasts for approximately 1 second, and the camera program of the smartphone also takes a shot image of the shot object within the 1 second, so that the shot image becomes blurred. Especially, a high-pixel camera is very sensitive to the shake, and a shot picture is more blurred.

To solve this problem, many photographing terminals now have a full-size preview mode. The full-size preview mode refers to a mode in which a preview of shooting imaging is performed by a camera before shooting, and each frame of picture acquired by a shooting terminal is the maximum size, so that the picture can be generated according to the currently shot picture without size change during shooting, and thus the shooting can be completed more quickly. In a full-size preview mode, the shooting terminal caches multiple frames of pictures, such as three frames of pictures, collected by the camera at any time, and selects the clearest picture of the multiple frames of pictures to be compared with pictures obtained by subsequent shooting, so that the picture with the highest definition is selected as a picture. However, the shooting time interval of the three frames of pictures in the full-size preview mode is short, the three frames of pictures may be unclear when the shooting terminal shakes, and if more frames of pictures are cached, a larger storage space is needed, which undoubtedly aggravates or even exceeds the limitation of the operating system.

Disclosure of Invention

In view of this, the invention provides a terminal, an anti-shake photographing method thereof and a storage device, which can improve an anti-shake photographing effect, improve the definition of a photographed picture, and require a smaller storage space.

The anti-shake photographing method according to an embodiment of the present invention includes:

receiving a user instruction, and setting shooting to enter a full-size preview mode according to the user instruction;

caching a frame of clearest picture acquired by a camera in a full-size preview mode;

receiving a photographing instruction, and photographing a frame of picture through a camera;

and comparing the definition values of the frame of picture and the clearest picture, selecting one of the frames with the highest definition value as a picture, and outputting the picture.

The shooting terminal of an embodiment of the invention comprises a processor, and a camera, a transceiver and a memory which are connected with the processor, wherein,

the transceiver is used for receiving a user instruction;

the processor is used for setting shooting to enter a full-size preview mode according to the user instruction;

the camera is used for collecting pictures in a full-size preview mode;

the processor is used for acquiring a frame of clearest picture acquired by the camera in a full-size preview mode;

the memory is used for caching the clearest picture;

the transceiver is also used for receiving a photographing instruction;

the camera is also used for shooting a frame of picture according to the shooting instruction;

the processor is also used for comparing the definition values of a frame of picture and the clearest picture, selecting one of the pictures with the highest definition value as a photo, and outputting the photo.

The storage device of an embodiment of the invention stores program data, and the program data can be executed to realize the anti-shake photographing method.

Has the advantages that: the method compares the shot one-frame picture with the collected one-frame clearest picture in the full-size preview mode, selects one of the pictures with the highest definition value as the picture, can improve the anti-shake photographing effect and improve the definition of the shot picture, and only caches one-frame picture in the full-size preview mode, so that the required storage space is smaller, and compared with the condition of caching multi-frame pictures, the method cannot aggravate the condition that the limitation of an operating system cannot be exceeded.

Drawings

Fig. 1 is a schematic flow chart of an anti-shake photographing method according to an embodiment of the invention;

FIG. 2 is a flow chart illustrating caching of the clearest picture according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a camera application according to an embodiment of the present invention;

FIG. 4 is a flowchart illustrating an anti-shake photographing method according to another embodiment of the present invention;

fig. 5 is a schematic structural diagram of a photographing 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 flowchart illustrating an anti-shake photographing method according to a first embodiment of the invention. Referring to fig. 1, the anti-shake photographing method of the present embodiment may include steps S11 to S14.

S11: and receiving a user instruction, and setting the shooting to enter a full-size preview mode according to the user instruction.

And the shooting terminal starts a full-size preview mode by default. When a user wants to take a picture through the shooting terminal, the user can click the relevant camera application program on the shooting terminal, so that the camera is started and a shooting preview request is initiated, and at the moment, the shooting enters a full-size preview mode.

The user instruction can be regarded as the trigger operation of the photographing preview request, and after the photographing terminal receives the photographing preview request, the photographing is set to enter a full-size preview mode. The shooting preview request can be input in various ways, for example, a user clicks a virtual shooting key displayed on a screen of the shooting terminal or a shutter and other physical keys on the side of the shooting terminal; for another example, when the shooting terminal is in a delayed shooting mode, a user sets shooting delay in advance, and the shooting terminal is automatically triggered in a delayed mode when the shooting terminal reaches the shooting mode.

S12: and caching the clearest picture of one frame acquired by the camera in a full-size preview mode.

The shooting terminal obtains scenes in a shooting range in real time through a camera of the shooting terminal and images the scenes to obtain pictures. In the prior art, a shooting terminal establishes a buffer queue, and adds a frame of picture into the buffer queue after acquiring the frame of picture in a full-size preview mode, that is, in the prior art, a plurality of frames of pictures need to be buffered. However, the embodiment only buffers the clearest picture of one frame.

Specifically, in the embodiment, after each frame of picture is shot through the camera and before the next frame of picture is shot, the definition values of the current frame of picture and the previous frame of picture are compared, so that the picture with the highest definition value is selected as the clearest picture and cached.

Taking the example that the camera shoots three frames of pictures in the full-size preview mode, after the camera shoots a first frame of picture, the shooting terminal obtains the definition value of the first frame of picture, then the camera shoots a second frame of picture, the shooting terminal obtains the definition value of the second frame of picture, and the definition value of the second frame of picture is compared with the definition value of the first frame of picture. And if the definition value of the second frame of picture is smaller than that of the first frame of picture, deleting the second frame of picture, not caching the second frame of picture, then shooting a third frame of picture by the camera, and obtaining the definition value of the third frame of picture by the shooting terminal and comparing the definition value with that of the first frame of picture. And if the definition value of the second frame of picture is greater than that of the first frame of picture, deleting the first frame of picture, only caching the second frame of picture, then shooting a third frame of picture by the camera, and obtaining the definition value of the third frame of picture by the shooting terminal and comparing the definition value with that of the second frame of picture. For the case that the sharpness value of the second frame picture is equal to the sharpness value of the first frame picture, considering that the earlier taken picture deviates from the shooting intention of the photographer, the embodiment only buffers the second frame picture, then the camera takes the third frame picture, and the shooting terminal acquires the sharpness value of the third frame picture and compares the sharpness value with the sharpness value of the first frame picture.

As can be seen from the above, each time a frame of picture is taken, the embodiment compares the sharpness value with the sharpness value of the previous frame of picture, and buffers the highest sharpness value. In the whole full-size preview mode, the shooting terminal only caches the first frame of picture and the current frame of picture for subsequent comparison, and finally caches only the frame of picture with the highest definition value. Therefore, according to the embodiment, a buffer queue does not need to be established to buffer all the pictures shot in the full-size preview mode, the required storage space is small, and the limitation of the shooting terminal operating system is not increased.

The manner of obtaining the sharpness value of a frame of picture in this embodiment includes, but is not limited to: and the shooting terminal acquires the frequency spectrum image of each frame of picture, and selects a frame of picture with the most high frequency components in the focusing area as the clearest picture. Or the shooting terminal identifies the outline of the object in the current frame of picture and the previous frame of picture, the picture is clearer when the data difference of the outline boundary is larger, and therefore the picture with the largest data difference of the outline boundary is selected as the clearest picture. Or, the shooting terminal may select a plurality of regions from the current frame of picture and the previous frame of picture, perform contrast recognition on the regions, and select a frame of picture with the highest contrast as the clearest picture.

Further, referring to fig. 2, in this embodiment, when the camera shoots each frame of picture, the shooting time is recorded, which is equivalent to setting a time stamp for each frame of picture, and then before comparing the sharpness values of the current frame of picture and the previous frame of picture, it is determined whether the shooting time interval between the current frame of picture and the previous frame of picture is less than or equal to the preset time threshold. If so, comparing the definition values of the current frame of picture and the previous frame of picture, and selecting one with the highest definition value as the clearest picture and caching the clearest picture. If not, only caching the current frame of picture.

That is, if no picture is cached before, the current frame of picture is directly cached, and if the previously cached frame of picture is too old, for example, the cached picture is a picture before 1 second, the old picture is directly replaced by the current frame of picture; and if the definition of the current frame of picture is better than that of the buffer memory, or the same, replacing the picture in the buffer memory with the current frame of picture.

The preset time threshold is only one set threshold, a user can perform self-defined setting as required, and only the time from the time when a button such as a shutter is clicked to the time when the camera application program responds to the pressing operation and takes a picture is needed to be longer than the preset time threshold, and the time threshold is usually lower than 1 second.

In this embodiment, the shooting terminal may perform definition evaluation on each frame of picture shot by the camera in the full-size preview mode, so that the definition comparison process is performed only on pictures meeting the preset definition standard, and it is ensured that the definition of each frame of picture is not poor as a whole. Specifically, before comparing the definition values of the current frame of picture and the previous frame of picture, the shooting terminal acquires the definition value of the current frame of picture and judges whether the definition value of the current frame of picture is greater than or equal to a preset definition value or not; if so, comparing the definition values of the current frame of picture and the previous frame of picture, and selecting one with the highest definition value as the clearest picture and caching; and if not, deleting the current frame of picture, and continuously shooting through the camera, thereby evaluating the definition of the picture obtained by continuously shooting.

S13: and receiving a photographing instruction, and photographing a frame of picture through a camera.

The full-size preview mode can be regarded as a data acquisition stage in an early stage of photographing, and is used for previewing photographing imaging through the camera before photographing, and each frame of picture acquired by the photographing terminal is the maximum size in the mode, so that the size change is not needed during photographing, and the picture can be generated according to the currently photographed picture, so that the photographing can be performed more quickly. And the photographing instruction can be regarded as the end of the full-size preview mode, and after the photographing instruction is received, the camera shoots the last frame of picture shot at this time. In an application scenario, the process from the full-size preview mode to receiving the photographing instruction is a process in which the user presses a key such as a shutter to generate a photographing preview request to the camera application in response to the pressing operation and generates the photographing instruction.

Referring to fig. 3, a camera application of a shooting terminal is generally designed in a layered manner, and includes an application layer 31, an adaptation layer 32, and a hardware layer 33, where the application layer 31 is responsible for displaying an interface of the camera application, the hardware layer 33 is responsible for acquiring image data, and the adaptation layer 32 is responsible for displaying the image data acquired by the hardware layer 33 on a preview interface or generating a photo and returning the photo to the camera application. Based on this, when the camera application is started by the shooting terminal, the hardware layer 33 will continuously generate image data, the sharpness module 321 of the adaptation layer 32 calculates the sharpness value of a frame of picture according to the image data, and the preview module 322 of the adaptation layer 32 refreshes the preview interface according to the image data, so that the user can see a real-time picture. After the user clicks the physical key such as the shutter, the camera application of the photographing terminal sends a photographing instruction, the photographing instruction is transmitted to the adaptation layer 32, the photographing module 323 of the adaptation layer 32 acquires the image data generated by the hardware layer 33 and compares the image data with the image data in the cache module 324 to determine whether to generate a photo according to the image data of the cache module 324 or to generate a photo according to the image data of the hardware layer 33.

S14: and comparing the definition values of the frame of picture and the clearest picture, selecting one of the frames with the highest definition value as a picture, and outputting the picture.

It can be known from the above, this embodiment compares the last frame picture that the hardware layer 33 was shot with the frame clearest picture of gathering under the full-size preview mode, selects one of them the clearest value is the highest as the photo, can improve the anti-shake effect of shooing, promotes the definition of shooing the picture.

Fig. 4 is a specific application example of the anti-shake photographing method according to the present invention. As shown in fig. 4, when the user clicks the shutter icon, even if slight shake affects the quality of the current picture, the shooting terminal can obtain the clearest frame of picture before the shake, and since the shooting terminal is still before the shutter icon is clicked and the obtained picture is clear at this time, the clear picture is updated and cached to the newest frame of picture before the click until the user shakes due to the click of the shutter icon, so that the definition of the picture is deteriorated. In the whole photographing process, the photographing terminal can obtain a frame of picture cached before shaking as an output picture, which is also the clearest picture.

Fig. 5 is a schematic structural diagram of an embodiment of the photographing terminal of the present invention. As shown in fig. 5, the photographing terminal 50 includes a processor 51, and a camera 52, a transceiver 53, and a memory 54 connected to the processor 51, and the camera 52, the transceiver 53, and the memory 54 may be connected to the processor 51 through a communication bus 55, wherein,

the transceiver 53 is used to receive user instructions.

The processor 51 is configured to set the shooting to enter the full-size preview mode according to the user instruction.

The camera 52 is used to capture pictures in the full-size preview mode.

The processor 51 is used for acquiring a clearest picture of a frame acquired by the camera 52 in the full-size preview mode.

The memory 54 is used to buffer the clearest picture.

The transceiver 53 is also used to receive a photographing instruction.

The camera 52 is also used for taking a picture according to the photographing instruction.

The processor 51 is further configured to compare the sharpness values of a frame of picture and the sharpest picture, select one of the sharpest pictures as a photo, and output the photo.

In the full-size preview mode, after the camera 52 takes each picture and before taking the next picture, the processor 51 compares the sharpness values of the current picture and the previous picture, and selects the picture with the highest sharpness value as the clearest picture.

The processor 51 is further configured to record the time when the camera 52 captures each frame of picture. Before comparing the sharpness values of the current frame of picture and the previous frame of picture, the processor 51 is further configured to determine whether a shooting time interval between the current frame of picture and the previous frame of picture is less than or equal to a preset time threshold. If yes, the processor 51 compares the sharpness values of the current frame of picture and the previous frame of picture, and selects one of the pictures with the highest sharpness value as the clearest picture. If not, the processor 51 controls the memory 54 to buffer only the current frame of picture.

In this embodiment, the shooting terminal 50 may perform definition evaluation on each frame of picture shot by the camera in the full-size preview mode, so as to perform the definition comparison process only on the pictures meeting the preset definition standard, thereby ensuring that the definition of each frame of picture is not poor as a whole. Specifically, before comparing the sharpness values of the current frame of picture and the previous frame of picture, the processor 51 is further configured to obtain the sharpness value of the current frame of picture, and determine whether the sharpness value of the current frame of picture is greater than or equal to a preset sharpness value. If yes, the processor 51 compares the sharpness values of the current frame of picture and the previous frame of picture, and selects one of the pictures with the highest sharpness value as the clearest picture and caches the clearest picture. If not, the processor 51 controls the memory 54 to delete the current frame of picture, and continues shooting through the camera 52, so as to evaluate the definition of the picture obtained by continuous shooting.

The above structural elements of the photographing terminal 50 of the present embodiment correspondingly perform the anti-shake photographing method of the above embodiment, and have the same technical effects as the above.

The photographing terminal 30 includes, but is not limited to, a mobile terminal such as a smart phone, a PDA (Personal digital assistant) or a tablet computer, and a wearable device with a photographing function worn on a limb or embedded in clothes, jewelry or accessories.

In addition, the above embodiments may 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, may 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 may 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.

It should be understood that the above-mentioned embodiments are only examples of the present invention, and not intended to limit the scope of the present invention, and all equivalent structures or equivalent flow changes made by using the contents of the present specification and the drawings, such as the combination of technical features between the embodiments, or the direct or indirect application to other related technical fields, are also included in the scope of the present invention.

Claims (8)

1. An anti-shake photographing method, comprising:

receiving a user instruction, and setting a shooting mode to enter a full-size preview mode according to the user instruction so as to collect multiple frames of pictures;

caching a frame of clearest picture collected by a camera in the full-size preview mode, wherein the step of collecting and caching the frame of clearest picture comprises the following steps: after each frame of picture is shot through the camera and before the next frame of picture is shot, comparing the definition values of the current frame of picture and the cached picture; selecting one with the highest definition value as the clearest picture and caching;

receiving a photographing instruction, and photographing a frame of picture through the camera;

and comparing the definition values of the frame of picture and the clearest picture, selecting one of the frames with the highest definition value as a picture, and outputting the picture.

2. The method of claim 1,

the method further comprises the following steps:

recording the moment when the camera shoots each frame of picture;

before comparing the sharpness values of the current frame picture and the cached picture, the method comprises the following steps:

judging whether the shooting time interval between the current frame of picture and the cached picture is smaller than or equal to a preset time threshold value or not;

if so, comparing the definition values of the current frame of picture and the cached picture;

if not, only caching the current frame of picture.

3. The method of claim 2, wherein the time threshold is 1 second.

4. The method of claim 1, wherein before comparing the sharpness values of the current frame of picture and the buffered picture, the method comprises:

acquiring a definition value of a current frame of picture;

judging whether the definition value of the current frame of picture is greater than or equal to a preset definition value or not;

if so, comparing the definition values of the current frame of picture and the cached picture;

and if not, deleting the current frame of picture, and continuing shooting through the camera.

5. A photographing terminal comprising a processor, and a camera, a transceiver, and a memory connected to the processor, wherein,

the transceiver is used for receiving a user instruction;

the processor is used for setting photographing to enter a full-size preview mode according to the user instruction;

the camera is used for collecting multi-frame pictures in the full-size preview mode;

the processor is used for acquiring a frame of clearest picture acquired by the camera in the full-size preview mode;

the memory is used for caching the clearest picture;

the transceiver is also used for receiving a photographing instruction;

the camera is also used for shooting a frame of picture according to the shooting instruction;

in the full-size preview mode, after the camera shoots each frame of picture and before the camera shoots the next frame of picture, the processor compares the definition values of the current frame of picture and the cached picture, and selects one with the highest definition value as the clearest picture and caches the clearest picture;

the processor is also used for comparing the definition values of the frame of picture and the clearest picture, selecting one of the frames with the highest definition value as a picture, and outputting the picture.

6. The camera terminal of claim 5, wherein the processor is further configured to record a time when each frame of picture is captured by the camera;

before comparing the sharpness values of the current frame of picture and the cached picture, the processor is further configured to determine whether a shooting time interval between the current frame of picture and the cached picture is less than or equal to a preset time threshold; if so, comparing the definition values of the cached picture and the current frame of picture; if not, the memory only caches the current frame of picture.

7. The camera terminal according to claim 5, wherein before comparing the sharpness values of the current frame of picture with the cached pictures, the processor is further configured to obtain the sharpness value of the current frame of picture and determine whether the sharpness value of the current frame of picture is greater than or equal to a preset sharpness value; if so, comparing the definition values of the current frame of picture and the cached picture; and if not, deleting the current frame of picture, and controlling the camera to continue shooting.

8. A storage device, characterized in that the storage device stores program data that can be executed to implement the method of any one of claims 1-4.

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