CN103986872A - Terminal and terminal shooting method - Google Patents
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- CN103986872A CN103986872A CN201410230625.7A CN201410230625A CN103986872A CN 103986872 A CN103986872 A CN 103986872A CN 201410230625 A CN201410230625 A CN 201410230625A CN 103986872 A CN103986872 A CN 103986872A
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Abstract
The invention provides a terminal and a terminal shooting method. The terminal comprises a shooting module and a synthesis module, wherein the shooting module is used for keeping the situation that a scene is shot in a mobile mode by the mobile terminal with the same shooting parameter, and at least two continuous scene images are obtained; the synthesis module is used for splicing the at least two continuous scene images into a picture. Due to the implementation of the terminal, the situation that the scene is shot in the mobile mode by the mobile terminal with the same shooting parameter is kept, at least two continuous scene images are obtained, the at least two continuous scene images are spliced into the picture, in other words, all the scene images participating in splicing are shot by the mobile terminal with the same shooting parameter, and therefore abnormal splicing phenomena such as scenery overlap and black shadow will not happen to the scene images in the splicing process, the problems that because in the prior art, the terminal shakes, wrong scene images are acquired, and abnormal picture splicing occurs are solved, and using experience of a user is enhanced.
Description
Technical Field
The invention relates to the field of terminal shooting, in particular to a terminal and a terminal shooting method.
Background
When the terminal takes a picture, due to the lighting angle, the shooting definition and the like of the camera, multiple pictures may need to be taken for the same object, each picture can only take a part of the object, and the multiple pictures need to be checked in the subsequent checking process. In order to solve the problem, the prior art provides a panoramic shooting method, by adopting the method, a terminal enters a panoramic shooting mode, after a user presses a start key, the terminal shoots a first scene image, then the user horizontally moves or rotates the terminal by taking the user as a center according to a terminal prompt, in the moving/rotating process, the terminal periodically collects a plurality of scene images, and after the user presses an end key, the terminal splices and synthesizes the collected scene images into a panoramic photo.
However, the above-mentioned solutions also have problems: when a terminal collects a scene image, if a user shakes the terminal, the terminal moves up and down in the horizontal direction, the content of the collected scene image is greatly different from that of the previously collected scene image, and when the terminal synthesizes the scene images in the subsequent process, the terminal directly synthesizes the scene images according to the rule of edge alignment, and the panoramic photo synthesized at the moment has the phenomena of scene overlapping, shadow and the like, so that the use experience of the user is reduced.
Therefore, it is an urgent technical problem to be solved by those skilled in the art to provide a method for reducing abnormal photo splicing caused by a scene image capture error due to terminal shake.
Disclosure of Invention
The invention provides a terminal and a terminal shooting method, which aim to solve the problem of abnormal photo splicing caused by scene image acquisition errors due to terminal shaking and the like in the prior art.
The invention provides a terminal, which comprises a shooting module and a synthesizing module in one embodiment; the shooting module is used for keeping the same shooting parameter of the terminal to carry out mobile shooting on a scene to obtain at least two continuous scene images; the synthesis module is used for splicing at least two continuous scene images into a photo.
Further, the image capturing parameters in the above embodiments include at least one of a terminal image capturing angle, an image capturing resolution, an image capturing exposure level, and an image capturing focal length.
Further, the terminal in the above embodiment further includes a processing module, where the processing module is configured to match the current camera shooting parameter with a preset standard camera shooting parameter before the camera shooting module shoots each scene image; if the matching is inconsistent, automatically adjusting and/or prompting a user to adjust the current shooting parameters, and triggering a shooting module to shoot the current scene image until the current shooting parameters are consistent with the standard shooting parameters; and if the matching is consistent, directly triggering the shooting module to shoot the current scene image.
Further, the terminal in the above embodiment further includes a setting module, where the setting module is configured to set the shooting parameters when the shooting module shoots the first scene image as the standard shooting parameters.
Further, in the above embodiment, when the camera shooting parameter includes a terminal camera shooting angle, the processing module is further configured to set a first reminding frame and a second reminding frame in the shooting preview interface, where the first reminding frame is used to indicate the terminal camera shooting angle in the standard camera shooting parameter, and the second reminding frame is used to indicate the terminal camera shooting angle of the current camera shooting parameter, and update the second reminding frame in real time according to a user operation, and when the second reminding frame coincides with the first reminding frame, trigger the shooting module to shoot the current scene image.
Meanwhile, the invention also provides a terminal shooting method, which comprises the following steps: keeping the same camera shooting parameter of the terminal to carry out mobile shooting on the scene to obtain at least two continuous scene images; at least two consecutive scene images are stitched into a photograph.
The invention has the beneficial effects that:
according to the terminal and the terminal shooting method provided by the invention, the scene is shot in a movable mode by keeping the same shooting parameter of the terminal, at least two continuous scene images are obtained, and the at least two continuous scene images are spliced into the photo, namely all the scene images participating in the splicing are shot by the terminal under the same shooting parameter, the scene images are not subjected to abnormal splicing phenomena such as scene overlapping, shadow and the like during splicing, the problem that the photo splicing is abnormal due to the fact that scene images are acquired incorrectly due to terminal shaking and the like in the prior art is solved, and the use experience of a user is enhanced.
Drawings
Fig. 1 is a schematic functional module diagram of a terminal according to a first embodiment of the present invention;
fig. 2 is a flowchart of a terminal shooting method according to a second embodiment of the present invention;
fig. 3 is a flowchart of a terminal shooting method according to a third embodiment of the present invention;
fig. 4 is a schematic diagram of a panoramic shooting process according to the present invention and the prior art.
Detailed Description
The invention will now be further explained by means of embodiments in conjunction with the accompanying drawings.
The core idea of the invention is to carry out mobile shooting on the scene under the condition of keeping the terminal in the same shooting parameter to obtain at least two continuous scene images, thus, the scene images are shot when the terminal is in the same shooting parameter, and the repeatedly shot parts are perfectly superposed together in the subsequent picture synthesis process, and the splicing abnormity of scene overlapping, shadow and the like can not occur.
The first embodiment:
fig. 1 is a schematic diagram of functional modules of a terminal according to a first embodiment of the present invention, and as can be seen from fig. 1, in this embodiment, the terminal 1 according to the present invention includes: a shooting module 11 and a synthesizing module 12; wherein,
the shooting module 11 is used for keeping the same shooting parameter of the terminal to carry out mobile shooting on a scene to obtain at least two continuous scene images; specifically, for example, the mobile shooting may be shooting by moving the terminal horizontally/vertically/diagonally along a straight line (in the fourth embodiment, the horizontal moving of the terminal is taken as an example), or shooting by rotating the terminal around a certain point in a horizontal plane/vertical plane/inclined plane (for example, shooting in a panorama 180, 360, etc.), where the scene image is used for synthesizing a picture by the synthesizing module 12;
the synthesis module 12 is configured to splice at least two consecutive scene images into a photograph; specifically, the photos spliced by the synthesis module 12 may be panoramic photos, such as panoramic photos rotated by 90-360 degrees, or full views of a certain shooting scene, and if a certain shooting object is large and the photos obtained by directly shooting the full views are not clear, the synthesis module 12 may splice a plurality of local clear images of the shooting object into a clear picture of the shooting object.
In this embodiment, the scene images used by the synthesis module 12 for splicing the photos are all obtained by shooting under the condition that the terminal keeps the same shooting parameter, and the scene images are not subjected to scene overlapping, shadows and other abnormalities during splicing, so that the use experience of the user is enhanced.
In some embodiments, the camera parameters include at least one of a terminal camera angle, a camera resolution, a camera exposure, and a camera focal length. Specifically, for example, the terminal camera angle refers to an angle between a terminal and each coordinate plane of a reference coordinate system when a scene image is captured, for example, when the reference coordinate system is selected as a horizontal plane, a meridian plane, and a latitude plane, the terminal camera angle includes an angle between one or more planes of the terminal (e.g., a plane where a terminal display screen is located and a plane where a terminal camera is located and fixed relative to the terminal) and the horizontal plane, and two angles between a longitude plane and a latitude plane, and these parameters can be detected by a gyroscope built in the terminal, in the following third embodiment, the terminal camera angle includes an angle between a lower surface of the terminal and the horizontal plane, an angle between a terminal camera plane (specifically, such as an interface where a terminal display screen is located, or a plane perpendicular to an optical axis of the terminal camera) and the horizontal plane, and an angle between the terminal camera plane and the north-south direction, which, once these three angles change, will cause problems such as, thereby causing a splice anomaly; for another example, when an existing terminal takes a picture, the shooting effect can be automatically adjusted, for example, parameters such as resolution, exposure, focal length and the like during shooting can be automatically adjusted according to characters in a scene through a face recognition technology (the parameters can be automatically acquired and recorded by the terminal during shooting), the technology is convenient for users, and good use experience can be achieved when the users take the picture in a single mode; in this embodiment, the terminal always shoots a scene image under the same shooting parameter, and the obtained scene image has the same shooting position, shooting resolution, shooting exposure and shooting focal length, so that on the basis, the photos obtained by subsequent synthesis will not have the situations of abnormal splicing, unnatural light and shade transition and the like.
In some embodiments, the terminal in fig. 1 further includes a processing module, where the processing module is configured to match the current camera shooting parameters with preset standard camera shooting parameters before the camera shooting module shoots each scene image; if the matching is inconsistent, automatically adjusting and/or prompting a user to adjust the current shooting parameters, and triggering a shooting module to shoot the current scene image until the current shooting parameters are consistent with the standard shooting parameters; if the matching is consistent, directly triggering a shooting module to shoot the current scene image; specifically, the shooting parameters comprise a terminal shooting angle and a shooting exposure, when each scene image is shot, the terminal matches the current shooting parameters with the standard shooting parameters, if the current shooting parameters are matched with the standard shooting parameters (the current shooting parameters and the standard shooting parameters are the same), the scene image is shot, if the current shooting parameters and the standard shooting parameters are not matched, the shooting position or the shooting exposure is further judged to be different, if the shooting exposure is not the same, the terminal automatically adjusts the exposure to a standard value, and if the shooting position is not the same, the user is prompted to adjust the terminal position.
In some embodiments, the terminal shown in fig. 1 further includes a setting module, where the setting module is configured to set the shooting parameters when the shooting module shoots the first scene image as standard shooting parameters; specifically, after the terminal enters a panoramic shooting mode, a user adjusts parameters such as a shooting position and resolution of the terminal, presses a shooting button to shoot a first scene image, the terminal enters the panoramic shooting mode, sets terminal shooting parameters (at the moment of shooting the first scene image) at the moment as standard shooting parameters, acquires current shooting parameters of the terminal in real time after a gyroscope detects that the terminal moves and pauses to move (if the terminal does not move or does not pause, the terminal does not reach the shooting position expected by the user, and does not need to be matched), matches the current shooting parameters with the standard shooting parameters, automatically shoots a second scene image if the current shooting parameters are matched, and automatically adjusts (such as adjusts exposure) or reminds the user to manually adjust (such as adjusts the terminal position) if the current shooting parameters are not matched; according to the embodiment, the standard camera shooting parameters are only related to the user selection during each panoramic shooting, so that the requirements of subsequent spliced photos can be saved, and the personalized selection of the user can be met.
In some embodiments, the image capturing parameters include a terminal image capturing angle, at this time, the processing module is further configured to set a first reminding frame and a second reminding frame in the shooting preview interface, where the first reminding frame is used to represent the terminal image capturing angle in the standard image capturing parameters, and the second reminding frame is used to represent the terminal image capturing angle of the current image capturing parameters, and update the second reminding frame in real time according to a user operation, and when the second reminding frame coincides with the first reminding frame, trigger the shooting module to shoot the current scene image; specifically, as shown in a solid line frame and a dotted line frame in the third embodiment below, the present embodiment enables a user to know a standard shooting parameter and a current shooting parameter in real time, and can quickly adjust a terminal position parameter in the shooting parameter according to the reminding frame, so as to quickly complete shooting of a scene image.
Second embodiment:
fig. 2 is a flowchart of a terminal shooting method according to a second embodiment of the present invention, and as can be seen from fig. 2, in this embodiment, the terminal shooting method according to the present invention includes the following steps:
s201: keeping the same camera shooting parameter of the terminal to carry out mobile shooting on the scene to obtain at least two continuous scene images;
s202: at least two consecutive scene images are stitched into a photograph.
In some embodiments, the camera parameters in the method of fig. 2 include at least one of a terminal camera angle, a camera resolution, a camera exposure, and a camera focal length.
In some embodiments, step S201 in the method shown in fig. 2 specifically includes the following sub-steps:
before each scene image is shot, matching the current shooting parameters with preset standard shooting parameters;
if the matching is inconsistent, the terminal automatically adjusts and/or prompts a user to adjust the current shooting parameters, and shooting the current scene image is not carried out until the current scene image is consistent with the standard shooting parameters;
and if the matching is consistent, directly shooting the current scene image.
In some embodiments, after the terminal enters the panorama shooting mode, the terminal shooting method in the above embodiments further includes: and setting the shooting parameters when the first scene image is shot as standard shooting parameters.
In some embodiments, when the image capturing parameter includes a terminal image capturing angle, the step of prompting the user to adjust the current image capturing parameter in the above embodiments includes: setting a first reminding frame and a second reminding frame on a shooting preview interface, wherein the first reminding frame is used for representing a terminal shooting angle in standard shooting parameters, and the second reminding frame is used for representing the terminal shooting angle of current shooting parameters; updating the second reminding frame in real time according to the user operation; and when the second reminding frame is superposed with the first reminding frame, shooting the current scene image.
The invention will now be explained in one step by means of a specific application example.
The third embodiment:
in this embodiment, taking the terminal to perform panoramic shooting as an example, and assuming that the user horizontally moves the terminal to shoot a panoramic photo, the shot content is a string of letters as shown in fig. 4, and the terminal shooting parameters only include the terminal shooting angle and do not include parameters such as resolution;
fig. 3 is a flowchart of a method of a terminal shooting method according to a third embodiment of the present invention, and as can be seen from fig. 3, in this embodiment, the terminal shooting method according to the present invention includes the following steps:
s301: the terminal enters a panoramic photographing mode;
a user calls a panoramic shooting function provided by the terminal, and then the terminal enters a panoramic shooting module;
s302: the terminal shoots a first scene image, records the shooting parameters of the terminal at the moment and records the shooting parameters as standard shooting parameters;
in the step, the camera shooting parameters only comprise a terminal camera shooting angle, a reference system comprising a horizontal plane and a north-south direction is selected for facilitating gyroscope measurement, the included angle between the lower surface of the terminal and the horizontal plane, the included angle between the terminal shooting surface and the horizontal plane and the included angle between the terminal shooting surface and the north-south direction are detected, and the detection result at the moment is used as standard camera shooting parameters;
a user clicks a start key, a terminal shoots a first scene image, and then the process of shooting other scene images is automatically started;
s303: the terminal moves, and after the movement is suspended, the camera shooting parameters of the terminal are obtained in real time and recorded as the current camera shooting parameters;
s304: the terminal respectively displays the standard shooting parameters and the terminal shooting angle in the current shooting parameters on a preview interface;
in this embodiment, the terminal displays the terminal camera angle in the standard camera parameters on the screen in the form of a first reminding frame (dashed line frame), when the terminal performs actions such as shaking, tilting and the like, the relative position between the first reminding frame (dashed line frame) and the reference system is unchanged, meanwhile, the terminal displays the terminal camera angle in the current camera parameters on the screen in the form of a second reminding frame (solid line frame), when the terminal performs actions such as shaking, tilting and the like, the relative position between the second reminding frame (solid line frame) and the reference system changes along with the relative position between the terminal and the reference system, as shown in fig. 4;
s305: the terminal matches the standard camera shooting parameters and the terminal camera shooting angle in the current camera shooting parameters; if the matching is not consistent, executing step S306, and if the matching is consistent, executing step S307;
the terminal can judge whether the solid line frame and the dotted line frame coincide, if so, the matching is consistent, and if not, the matching is inconsistent; correspondingly, the terminal can also be matched by the background according to the detection result of the gyroscope, and the solid line box and the dotted line box at the moment only have the function of reminding the user of how to adjust;
if the standard shooting parameters and the current shooting parameters are not successfully matched, subsequent shooting cannot be performed, and the user can forcibly shoot when the user does not adjust the scene images for a long time, and if the user forcibly shoots, the user is reminded that the shot scene images can cause abnormal phenomena such as double images and the like of pictures obtained by subsequent splicing and the like, so that the user can refer to the scene images;
s306: the terminal reminds the user to adjust the camera shooting position of the terminal and returns to execute the step S303;
s307: shooting other scene images by the terminal;
s308: the terminal judges whether to exit the panoramic shooting mode, if so, the step S309 is executed, and if not, the step S303 is executed;
in this embodiment, the terminal may determine whether to exit the panorama shooting mode by determining whether the number of the shot scene images is greater than a preset value (e.g., when shooting in a panorama 360 degrees, the preset value is 9); correspondingly, the terminal can also detect whether the user selects to quit, the duration time of the terminal in the panoramic shooting mode is longer than a preset value and the like;
s309: the terminal exits the panoramic photographing mode and synthesizes all scene images into a panoramic photo;
and after the terminal exits the panoramic photographing mode, performing synthesis operations such as splicing and the like on all the photographed scene images to generate a panoramic photo.
The difference between the present invention and the prior art will now be described in an exemplary manner with reference to fig. 3 and 4; fig. 4 is a schematic diagram of a terminal shooting position and a scene image in a panoramic shooting process according to the present invention and the prior art, and it can be known from fig. 4 that:
in the embodiment, the target shot by the terminal is 'AAABBB', and the terminal synthesizes a panoramic photo by using two scene images; the first scene image includes "AAAB" and the second scene image captures "ABBB", referring to fig. 4;
when the first scene image is shot (at the time TI), the included angle between the lower surface of the terminal and the horizontal plane is 0, the included angle between the shooting surface of the terminal and the horizontal plane is 90 degrees, and the included angle between the shooting surface of the terminal and the north-south direction is 0, and the relative position is displayed as a standard relative position, wherein a schematic diagram of the relative position is shown in fig. 4;
when the second scene image is shot (at time T2), the terminal is tilted; if the prior art is used, a second scene image (the letters in the picture are inclined) is directly shot, as shown in fig. 4, if the panoramic shooting technology provided by the invention is used, at the time of T2, the terminal comparison does not pass, the second scene image is not automatically shot, but the user is reminded to adjust the terminal, so that the comparison between the relative position of the terminal and the reference system and the standard relative position passes, as shown at the time of T3, the terminal shoots the second scene image at the time, as shown in fig. 4;
the terminal exits the panoramic shooting mode to synthesize the panoramic photo, as shown in fig. 4, if the prior art is adopted, the problem that the panoramic photo formed by splicing and synthesizing a plurality of scene images has a ghost area and the like, but the panoramic photo formed by the scene images shot by the method is consistent with the shot target, namely, the method solves the problem that the panoramic photo is abnormal due to the fact that the scene images are mistakenly collected due to terminal shaking and the like in the prior art.
In summary, the implementation of the present invention has at least the following advantages:
the method comprises the steps of carrying out mobile shooting on a scene by keeping the same shooting parameter of a terminal to obtain at least two continuous scene images, splicing the at least two continuous scene images into a photo, namely all the scene images participating in splicing are shot by the terminal under the same shooting parameter, and splicing abnormal phenomena such as scene overlapping, shadow and the like cannot occur when the scene images are spliced, so that the problem of abnormal photo splicing caused by scene image acquisition errors due to terminal shaking and the like in the prior art is solved, and the use experience of a user is enhanced;
furthermore, the terminal shooting parameters when the user shoots the first scene image are set as the standard shooting parameters, so that the standard shooting parameters are only related to the user selection during each panoramic shooting, the requirements of subsequent spliced photos can be saved, and the personalized selection of the user can be met.
Furthermore, the first reminding frame and the second reminding frame are used for respectively displaying the standard shooting parameters and the terminal shooting angles in the current shooting parameters, so that a user can know the standard shooting parameters and the current shooting parameters in real time, the terminal position parameters in the shooting parameters can be quickly adjusted according to the reminding frames, and the scene image can be quickly shot.
It will be understood by those skilled in the art that all or part of the steps in the method for implementing the above embodiments may be implemented by relevant hardware instructed by a program, and the program may be stored in a computer-readable storage medium, such as ROM, magnetic disk, optical disk, etc.
The above embodiments are only examples of the present invention, and are not intended to limit the present invention in any way, and any simple modification, equivalent change, combination or modification made by the technical essence of the present invention to the above embodiments still fall within the protection scope of the technical solution of the present invention.
Claims (10)
1. A terminal is characterized by comprising a shooting module and a synthesis module; wherein,
the shooting module is used for keeping the same shooting parameter of the terminal to carry out mobile shooting on the scene to obtain at least two continuous scene images;
the synthesis module is used for splicing the at least two continuous scene images into a photo.
2. The terminal of claim 1, wherein the camera parameters include at least one of a terminal camera angle, a camera resolution, a camera exposure, and a camera focal length.
3. The terminal according to claim 1 or 2, wherein the terminal further comprises a processing module, the processing module is configured to match current camera parameters with preset standard camera parameters before the camera module takes each scene image; if the matching is inconsistent, automatically adjusting and/or prompting a user to adjust the current camera shooting parameters, and triggering the camera shooting module to shoot the current scene image until the matching is consistent with the standard camera shooting parameters; and if the matching is consistent, directly triggering the shooting module to shoot the current scene image.
4. The terminal of claim 3, further comprising a setting module for setting an image capturing parameter when the image capturing module captures the first scene image as the standard image capturing parameter.
5. The terminal according to claim 3, wherein when the camera shooting parameter includes a terminal camera shooting angle, the processing module is further configured to set a first reminding frame and a second reminding frame in a shooting preview interface, where the first reminding frame is used to indicate the terminal camera shooting angle in the standard camera shooting parameter, the second reminding frame is used to indicate the terminal camera shooting angle of the current camera shooting parameter, and update the second reminding frame in real time according to a user operation, and when the second reminding frame coincides with the first reminding frame, the shooting module is triggered to shoot a current scene image.
6. A terminal shooting method is characterized by comprising the following steps:
keeping the same camera shooting parameter of the terminal to carry out mobile shooting on the scene to obtain at least two continuous scene images;
and splicing the at least two continuous scene images into a photo.
7. The terminal photographing method of claim 6, wherein the photographing parameters include at least one of a terminal photographing angle, a photographing resolution, a photographing exposure, and a photographing focal length.
8. The terminal photographing method of claim 6 or 7, wherein the step of obtaining at least two consecutive scene images by moving-photographing the scene with the same photographing parameter of the terminal comprises: before each scene image is shot, matching the current shooting parameters with preset standard shooting parameters; if the matching is inconsistent, the terminal automatically adjusts and/or prompts a user to adjust the current shooting parameters, and shooting the current scene image is not carried out until the current scene image is consistent with the standard shooting parameters; and if the matching is consistent, directly shooting the current scene image.
9. The terminal photographing method of claim 8, further comprising: and setting the shooting parameters when the first scene image is shot as the standard shooting parameters.
10. The terminal photographing method of claim 8, wherein when the photographing parameter includes a terminal photographing angle, the step of prompting a user to adjust a current photographing parameter includes: setting a first reminding frame and a second reminding frame on a shooting preview interface, wherein the first reminding frame is used for representing a terminal shooting angle in the standard shooting parameters, and the second reminding frame is used for representing the terminal shooting angle of the current shooting parameters; updating the second reminding frame in real time according to user operation; and when the second reminding frame is superposed with the first reminding frame, shooting the current scene image.
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