CN104902172A - Determination method of shooting position and shooting terminal - Google Patents

Abstract

The embodiment of the invention discloses a determination method of a shooting position. The determination method comprises the following steps: acquiring luminance information of at least one scene; determining a target scene according to the luminance information of the at least one scene; determining a target shooting position of the target scene according to the target scene, and adjusting the shooting device to the target shooting position. The embodiment of the invention further discloses a shooting terminal. Through the adoption of the method disclosed by the embodiment of the invention, the optimal shooting position of the shooting device can be automatically acquired, thereby promoting a shooting effect.

Description

Shooting position determining method and shooting terminal

Technical Field

The present invention relates to the field of electronic technologies, and in particular, to a method for determining a shooting position and a shooting terminal.

Background

In recent years, with the rapid development of various smart terminals such as smart phones and cameras, the smart terminals have been widely used in various fields of life and work, and the image capturing function has become a common function of electronic devices. In addition, in order to reduce the production cost of intelligent terminal manufacturers, the intelligent terminal with the rotary camera is produced.

At present, when a user takes a picture of an object to be shot by using a mobile phone with a rotatable camera, the object to be shot can be movable objects such as people, fruits and the like, and the position of the rotatable camera of the intelligent terminal is adjusted by the user according to the position of the object to be shot, so that when the light of the current position of the object to be shot is insufficient, the object to be shot by the intelligent terminal is underexposed, and a target object to be shot in an image is grayed; or when the light of the current position of the object to be shot is too bright, the object to be shot by the intelligent terminal is overexposed, so that the target object to be shot in the image is whitish, and the target object to be shot in the image is not exposed correctly, so that a terminal user cannot obtain a satisfactory picture.

Disclosure of Invention

The technical problem to be solved by the embodiments of the present invention is to provide a method for determining a shooting position and a shooting terminal. The best shooting position of the shooting device can be automatically obtained, and therefore the shooting effect is improved.

In order to solve the above technical problem, an embodiment of the present invention provides a method for determining a shooting position, including:

acquiring brightness information of at least one scene;

determining a target scene according to the brightness information of the at least one scene;

and determining a target shooting position for shooting the target scene according to the target scene, and controlling a shooting device to adjust to the target shooting position.

Wherein the acquiring of the brightness information of at least one scene comprises:

acquiring an image of at least one scene by rotating a camera;

processing the image of the at least one scene to obtain at least one piece of brightness information; or,

and measuring brightness information corresponding to at least one scene through a sensor.

Wherein the determining the target scene according to the brightness information of the at least one scene comprises:

acquiring target brightness information meeting a preset condition from at least one piece of brightness information;

and acquiring a corresponding target image according to the target brightness information, and taking the target image as the target scene.

Wherein, still include after the image of at least one scene is gathered through rotatory camera:

acquiring a shooting position of an image collected by the rotary camera;

establishing a corresponding relation between the image and the shooting position;

the determining a target shooting position for shooting the target scene according to the target scene comprises:

and acquiring a target shooting position corresponding to the target image according to the corresponding relation between the image and the shooting position.

Wherein the target shooting position comprises a target rotation angle; the shooting device comprises a rotary camera;

the controlling the photographing apparatus to adjust to the target photographing position includes:

rotating the rotary camera according to a preset rotating direction;

and when the rotating angle of the rotating camera meets the target rotating angle, locking the position of the rotating camera.

Correspondingly, the embodiment of the invention also provides a shooting terminal, which comprises:

the device comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring the brightness information of at least one scene;

the determining unit is used for determining a target scene according to the brightness information of the at least one scene;

and the determining and adjusting unit is used for determining a target shooting position for shooting the target scene according to the target scene and controlling the shooting device to adjust to the target shooting position.

Wherein the acquisition unit includes:

the acquisition subunit is used for acquiring an image of at least one scene by rotating the camera;

the first acquisition subunit is used for processing the image of the at least one scene to acquire at least one piece of brightness information;

and the measuring subunit is used for measuring the brightness information corresponding to at least one scene through the sensor.

Wherein the determination unit includes:

the second acquisition subunit is used for acquiring target brightness information meeting a preset condition from the at least one piece of brightness information;

and the third acquisition subunit is used for acquiring the corresponding target image according to the target brightness information and taking the target image as the target scene.

Wherein the obtaining unit further includes:

the fourth acquisition subunit is used for acquiring the shooting position of the image acquired by the rotary camera;

the establishing subunit is used for establishing the corresponding relation between the image and the shooting position;

the determining and adjusting unit is specifically configured to:

and acquiring a target shooting position corresponding to the target image according to the corresponding relation between the image and the shooting position.

Wherein the target shooting position comprises a target rotation angle; the shooting device comprises a rotary camera;

the determination adjustment unit includes:

the rotating subunit is used for rotating the rotating camera according to a preset rotating direction;

and the locking subunit is used for locking the position of the rotary camera when the rotating angle of the rotary camera meets the target rotating angle.

The embodiment of the invention has the following beneficial effects:

according to the embodiment of the invention, the brightness information of at least one scene is acquired, the target scene is determined according to the brightness information of at least one scene, and the target shooting position for shooting the target scene is determined according to the target scene, so that the shooting device is controlled to be adjusted to the target shooting position, the terminal can determine the optimal brightness information according to the brightness information of a plurality of scenes, the optimal shooting position of the shooting device can be automatically acquired, and the shooting effect is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of a method for determining a shooting position according to a first embodiment of the present invention;

fig. 2 is a structural diagram of a terminal according to a first embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, 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 invention.

The shooting terminal described in the embodiment of the present invention is a terminal capable of performing rotational shooting, and the shooting terminal may have a rotational camera, and the rotational camera may perform rotational shooting or video recording according to a preset rotation direction, a preset rotation speed, a preset rotation acceleration, and a preset rotation angle. Specifically, the shooting terminal can also be provided with a bracket for rotating the camera, and can be used for supporting the shooting terminal to be fixedly placed on a horizontal desktop, or hung on a branch, a hook or a rope so as to fix the mobile phone at a specified position. Shooting terminal accessible support is fixed on the surface of water desktop, and the rotatory camera of restart rotates and shoots or record a video, need not that the handheld rotatory shooting of user or record a video, can prevent that the photo from shooting or the video from recording the influence that the in-process arm shake brought, can strengthen the photo and shoot or the stability that the video was recorded, improves the quality that the video was recorded. The shooting terminal may include a mobile phone, a camera, and the like having a rotary camera. The above shooting terminals are only examples, not exhaustive, and include but are not limited to the above shooting terminals.

Fig. 1 is a schematic flowchart of a method for determining a shooting position according to an embodiment of the present invention. The method for determining the shooting position described in the embodiment of the invention comprises the following steps:

s100, acquiring brightness information of at least one scene.

In the embodiment of the invention, when a user needs to determine the best shooting position for shooting, the user can detect and acquire the best shooting position through the shooting terminal. The shooting terminal can start the rotary camera to detect and acquire the best shooting position.

In the embodiment of the invention, when the shooting terminal starts the rotary camera to detect and acquire the best shooting position, the shooting terminal can firstly acquire the image of at least one scene through the rotary camera. Wherein, rotatory camera can rotate voluntarily to gather the image at rotatory in-process. The rotating camera may collect images during rotation as follows: the rotating camera collects a plurality of images in the rotating process according to a preset collecting time interval, or the rotating camera collects a plurality of images in the rotating process according to a preset rotating angle interval, or the rotating camera continuously collects a plurality of images. The images acquired by the rotary camera at different shooting positions are images of different scenes. That is, the images acquired by the rotating camera at different rotation angles may be images of different scenes, and the rotation angle may be an angle offset from the reference direction. Further, when the rotary camera collects images at different shooting positions, the shooting terminal also obtains the shooting positions of the collected images and establishes the corresponding relation between the images and the shooting positions.

In the embodiment of the invention, after the rotating camera finishes image acquisition, the shooting terminal can acquire the brightness information corresponding to each image according to a plurality of images acquired by the camera and establish the corresponding relation between the brightness information and the images. Specifically, the shooting terminal may obtain the brightness information corresponding to the gray scale information of each image in a preset gray scale and brightness information comparison table.

Further, in the embodiment of the present invention, the shooting terminal may further measure the brightness information of at least one scene through a sensor, for example, a luminance meter or a photoresistor. Specifically, the sensor can rotate along with the rotary camera, so that the brightness information of the scene corresponding to the rotary camera at different shooting positions is collected. Because different shooting positions correspond to different scenes, when the sensor collects brightness information at different shooting positions of the rotary camera, the shooting terminal can obtain the shooting position of the rotary camera corresponding to the collected brightness information, the shooting position is used for representing the corresponding scene, and the corresponding relation between the brightness information and the shooting position is established.

S101, determining a target scene according to the brightness information of the at least one scene.

In the embodiment of the invention, the shooting terminal can acquire the target brightness information meeting the preset condition from the acquired multiple brightness information corresponding to multiple scenes. The preset condition may be luminance information that is most suitable for shooting among the acquired luminance information. Such as: if the whole scene around the shooting terminal is dark, the shooting terminal can acquire brightness information corresponding to the scene with the brightest light in the surrounding scene as the brightness information which is most suitable for shooting; if the whole scene around the shooting terminal is slightly bright, the shooting terminal can acquire brightness information corresponding to the scene with the darkest light in the surrounding scene as the brightness information which is most suitable for shooting; if the scene around the shooting terminal is slightly bright or dark, the shooting terminal can acquire the brightness information corresponding to the scene with the best shooting imaging in the surrounding scene as the brightness information which is most suitable for shooting.

In the embodiment of the present invention, when the shooting terminal acquires the target luminance information, the shooting terminal may acquire the target image corresponding to the target luminance information according to the established correspondence between the luminance information and the image, and use the target image as the target scene.

In the embodiment of the present invention, when the shooting terminal acquires the target brightness information, the shooting terminal may further acquire a target shooting position corresponding to the target brightness information according to a correspondence between the brightness information and the shooting position, and use the target shooting position as a target scene.

S102, determining a target shooting position for shooting the target scene according to the target scene, and adjusting a shooting device to the target shooting position.

In the embodiment of the invention, the shooting device can comprise shooting components such as a rotary camera and a flash-off lamp. When the shooting terminal determines the target scene by acquiring the image, the target scene is the target image at the moment. The shooting terminal can obtain the shooting position corresponding to the target image according to the established corresponding relation between the image and the shooting position, and the shooting device is rotated to the corresponding shooting position, at the moment, the object to be shot can enter a scene shot by the rotary camera, and the shooting terminal controls the camera to shoot. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment.

Further, when the shooting terminal determines the target scene through the sensor, the target scene is the target shooting position. The shooting terminal can rotate the shooting device to a corresponding shooting position according to the target shooting position, and at the moment, an object to be shot can enter a scene shot by the rotary camera, and the shooting terminal controls the camera to shoot. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment.

In the implementation of the present invention, the target photographing position may further include a target rotation angle, and the adjusting of the photographing device to the target photographing position by the photographing terminal may be: and the shooting terminal rotates the rotary camera according to a preset rotation direction, and when the rotation angle of the rotary camera meets a target rotation angle, the position of the rotary camera is locked. At the moment, the object to be shot can enter a scene shot by the rotary camera, and the shooting terminal controls the camera to shoot. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment. Wherein the preset rotating direction comprises a counterclockwise rotating direction and a clockwise rotating direction.

According to the embodiment of the invention, the brightness information of at least one scene is acquired, the target scene is determined according to the brightness information of at least one scene, and the target shooting position for shooting the target scene is determined according to the target scene, so that the shooting device is controlled to be adjusted to the target shooting position, the terminal can determine the optimal brightness information according to the brightness information of a plurality of scenes, the optimal shooting position of the shooting device can be automatically acquired, and the shooting effect is improved.

Fig. 2 is a structural diagram of a shooting terminal according to a first embodiment of the present invention. The shooting terminal described in the embodiment of the present invention includes:

an obtaining unit 100 is configured to obtain luminance information of at least one scene.

A determining unit 200, configured to determine a target scene according to the brightness information of the at least one scene.

And a determining and adjusting unit 300, configured to determine a target shooting position for shooting the target scene according to the target scene, and control the shooting device to adjust to the target shooting position.

Wherein, the obtaining unit 100 is specifically configured to:

acquiring an image of at least one scene by rotating a camera;

processing the image of the at least one scene to obtain at least one piece of brightness information; or,

and measuring brightness information corresponding to at least one scene through a sensor.

The determining unit 200 is specifically configured to:

acquiring target brightness information meeting a preset condition from at least one piece of brightness information;

and acquiring a corresponding target image according to the target brightness information, and taking the target image as the target scene.

The obtaining unit 100 is specifically configured to:

acquiring a shooting position of an image collected by the rotary camera;

establishing a corresponding relation between the image and the shooting position;

the determining and adjusting unit 300 is specifically configured to:

and acquiring a target shooting position corresponding to the target image according to the corresponding relation between the image and the shooting position.

The target shooting position comprises a target rotation angle; the photographing device includes a rotary camera.

The determination adjustment unit 300 includes:

rotating the rotary camera according to a preset rotating direction;

and when the rotating angle of the rotating camera meets the target rotating angle, locking the position of the rotating camera.

In the embodiment of the invention, when a user needs to determine the best shooting position for shooting, the user can detect and acquire the best shooting position through the shooting terminal. The shooting terminal can start the rotary camera to detect and acquire the best shooting position.

In the embodiment of the present invention, when the shooting terminal starts the rotating camera to detect and obtain the best shooting position, the obtaining unit 100 may first collect an image of at least one scene through the rotating camera. The obtaining unit 100 may control the rotating camera to rotate, and capture an image during the rotation process. The control of the rotary camera by the obtaining unit 100 in the rotation process to acquire images may be: the obtaining unit 100 may control the rotating camera to collect a plurality of images according to a preset collection time interval in the rotating process according to the collection time interval, or the obtaining unit 100 controls the rotating camera to collect images when the rotating camera rotates to a preset rotation angle in the rotating process according to the preset rotation angle interval, or the obtaining unit 100 controls the rotating camera to continuously collect a plurality of images. The obtaining unit 100 controls the images acquired by the rotary camera at different shooting positions to be images of different scenes. That is, the acquisition unit 100 may control the images acquired by the rotating camera at different rotation angles to be images of different scenes, and the rotation angle may be an angle offset from the reference direction. Further, when the obtaining unit 100 controls the rotary camera to capture images at different capturing positions, the obtaining unit 100 further obtains the capturing positions of the captured images, and establishes a corresponding relationship between the images and the capturing positions.

In the embodiment of the present invention, after the obtaining unit 100 controls the rotating camera to acquire the image, the obtaining unit 100 may obtain the luminance information corresponding to each image according to a plurality of images acquired by the camera, and establish a corresponding relationship between the luminance information and the image. Specifically, the obtaining unit 100 may obtain the luminance information corresponding to the gray information of each image in a preset gray-scale and luminance information comparison table.

Further, in the embodiment of the present invention, the obtaining unit 100 may further measure the brightness information of at least one scene through a sensor, such as a luminance meter or a photo resistor. Specifically, the sensor can rotate along with the rotary camera, so that the brightness information of the scene corresponding to the rotary camera at different shooting positions is collected. Since different shooting positions correspond to different scenes, when the sensor collects luminance information at different shooting positions of the rotary camera, the obtaining unit 100 can obtain the shooting position of the rotary camera corresponding to the collected luminance information, use the shooting position to represent the corresponding scene, and establish a corresponding relationship between the luminance information and the shooting position.

In the embodiment of the present invention, the determining unit 200 may obtain target luminance information satisfying a preset condition from a plurality of luminance information corresponding to the obtained plurality of scenes. The preset condition may be luminance information that is most suitable for shooting among the acquired luminance information. Such as: if the whole scene around the shooting terminal is dark, the determining unit 200 may obtain the brightness information corresponding to the scene with the brightest light in the surrounding scene as the brightness information most suitable for shooting; if the whole scene around the shooting terminal is slightly bright, the determining unit 200 may acquire brightness information corresponding to a scene with the darkest light in the surrounding scene as brightness information most suitable for shooting; if the surrounding scene of the shooting terminal is slightly bright or dark, the determining unit 200 may obtain the brightness information corresponding to the scene with the best shooting image as the best brightness information for shooting in the surrounding scene.

In this embodiment of the present invention, when the determining unit 200 acquires the target luminance information, the determining unit 200 may acquire a target image corresponding to the target luminance information according to the established correspondence between the luminance information and the image, and use the target image as a target scene.

In this embodiment of the present invention, when the determining unit 200 acquires the target luminance information, the determining unit 200 may further acquire a target shooting position corresponding to the target luminance information according to a correspondence between the luminance information and the shooting position, and use the target shooting position as the target scene.

In the embodiment of the invention, the shooting device can comprise shooting components such as a rotary camera and a flash-off lamp. When the shooting terminal determines the target scene by acquiring the image, the target scene is the target image at the moment. The determining and adjusting unit 300 may obtain a shooting position corresponding to the target image according to the established correspondence between the image and the shooting position, and rotate the shooting device to the corresponding shooting position, at this time, the object to be shot may enter a scene shot by the rotating camera, and the shooting terminal controls the camera to shoot. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment.

Further, when the shooting terminal determines the target scene through the sensor, the target scene is the target shooting position. The determining and adjusting unit 300 may rotate the photographing apparatus to a corresponding photographing position according to the target photographing position, and at this time, the object to be photographed may enter a scene captured by the rotating camera, and the photographing terminal controls the camera to photograph. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment.

In the implementation of the present invention, the implementation target photographing position may further include a target rotation angle, and the determining and adjusting unit 300 may control the photographing apparatus to adjust to the target photographing position by: the determining and adjusting unit 300 rotates the rotary camera according to a preset rotation direction, and locks the position of the rotary camera when a rotation angle of the rotary camera satisfies a target rotation angle. At the moment, the object to be shot can enter a scene shot by the rotary camera, and the shooting terminal controls the camera to shoot. If the user needs to shoot fruit, then the user can place fruit and shoot in the scene that rotatory camera was shot this moment. Wherein the preset rotating direction comprises a counterclockwise rotating direction and a clockwise rotating direction.

According to the embodiment of the invention, the brightness information of at least one scene is acquired, the target scene is determined according to the brightness information of at least one scene, and the target shooting position for shooting the target scene is determined according to the target scene, so that the shooting device is controlled to be adjusted to the target shooting position, the terminal can determine the optimal brightness information according to the brightness information of a plurality of scenes, the optimal shooting position of the shooting device can be automatically acquired, and the shooting effect is improved.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention, and it is therefore to be understood that the invention is not limited by the scope of the appended claims.

Claims (10)

1. A method for determining a shooting position, the method comprising:

acquiring brightness information of at least one scene;

determining a target scene according to the brightness information of the at least one scene;

and determining a target shooting position for shooting the target scene according to the target scene, and controlling a shooting device to adjust to the target shooting position.

2. The method of claim 1, wherein the obtaining luminance information for at least one scene comprises:

acquiring an image of at least one scene by rotating a camera;

processing the image of the at least one scene to obtain at least one piece of brightness information; or,

and measuring brightness information corresponding to at least one scene through a sensor.

3. The method of claim 2, wherein said determining a target scene from luminance information of the at least one scene comprises:

acquiring target brightness information meeting a preset condition from at least one piece of brightness information;

and acquiring a corresponding target image according to the target brightness information, and taking the target image as the target scene.

4. The method of claim 3, wherein said capturing an image of at least one scene by rotating the camera further comprises:

acquiring a shooting position of an image collected by the rotary camera;

establishing a corresponding relation between the image and the shooting position;

the determining a target shooting position for shooting the target scene according to the target scene comprises:

and acquiring a target shooting position corresponding to the target image according to the corresponding relation between the image and the shooting position.

5. The method of claim 4, wherein the target photographing position includes a target rotation angle; the shooting device comprises a rotary camera;

the controlling the photographing apparatus to adjust to the target photographing position includes:

rotating the rotary camera according to a preset rotating direction;

and when the rotating angle of the rotating camera meets the target rotating angle, locking the position of the rotating camera.

6. A photographing terminal, characterized in that the terminal comprises:

the device comprises an acquisition unit, a processing unit and a processing unit, wherein the acquisition unit is used for acquiring the brightness information of at least one scene;

the determining unit is used for determining a target scene according to the brightness information of the at least one scene;

and the determining and adjusting unit is used for determining a target shooting position for shooting the target scene according to the target scene and controlling the shooting device to adjust to the target shooting position.

7. The terminal of claim 6, wherein the obtaining unit comprises:

the acquisition subunit is used for acquiring an image of at least one scene by rotating the camera;

the first acquisition subunit is used for processing the image of the at least one scene to acquire at least one piece of brightness information;

and the measuring subunit is used for measuring the brightness information corresponding to at least one scene through the sensor.

8. The terminal of claim 7, wherein the determining unit comprises:

the second acquisition subunit is used for acquiring target brightness information meeting a preset condition from the at least one piece of brightness information;

and the third acquisition subunit is used for acquiring the corresponding target image according to the target brightness information and taking the target image as the target scene.

9. The terminal of claim 8, wherein the obtaining unit further comprises:

the fourth acquisition subunit is used for acquiring the shooting position of the image acquired by the rotary camera;

the establishing subunit is used for establishing the corresponding relation between the image and the shooting position;

the determining and adjusting unit is specifically configured to:

and acquiring a target shooting position corresponding to the target image according to the corresponding relation between the image and the shooting position.

10. The terminal of claim 9, wherein the target photographing position includes a target rotation angle; the shooting device comprises a rotary camera;

the determination adjustment unit includes:

the rotating subunit is used for rotating the rotating camera according to a preset rotating direction;

and the locking subunit is used for locking the position of the rotary camera when the rotating angle of the rotary camera meets the target rotating angle.