CN108282622B

CN108282622B - Photo shooting method and device

Info

Publication number: CN108282622B
Application number: CN201810081564.0A
Authority: CN
Inventors: 高伟
Original assignee: Samsung Electronics China R&D Center; Samsung Electronics Co Ltd
Current assignee: Samsung Electronics China R&D Center; Samsung Electronics Co Ltd
Priority date: 2018-01-29
Filing date: 2018-01-29
Publication date: 2020-10-27
Anticipated expiration: 2038-01-29
Also published as: CN108282622A

Abstract

The application discloses a photo shooting method and a device, wherein the method comprises the following steps: acquiring shooting parameters used by a first photo to be synthesized; configuring camera shooting parameters of the terminal equipment according to the shooting parameters; displaying an image shot by a lens of the terminal equipment in real time through a first picture; synthesizing an image corresponding to an image synthesis area designated in a first picture with the first picture in real time, correcting the synthesis result according to the current shooting environment condition, and displaying the synthesized correction result through a second picture; and when a synthesis confirmation instruction is detected, generating a corresponding synthetic photo according to the image displayed on the second picture at present. The invention is suitable for intelligent terminal equipment, has better photo synthesis effect and is easy to operate by users.

Description

Photo shooting method and device

Technical Field

The present invention relates to computer application technologies, and in particular, to a method and an apparatus for taking a photo.

Background

Everyone wants to record a certain moment in life, so the photographing function of the intelligent terminal device becomes the most frequently used function of the user. However, it is often desirable that users always fail to take some classical pictures for some special reasons, such as failing to participate in group photography, failing to take a group photograph with a long-standing star of a certain heart instrument, and so on, which is not unfortunate to users.

At present, photo synthesis is usually adopted to meet the above requirements of users, and the images of users are synthesized into photos that the users wish to participate in. The existing photo synthesis method usually needs to take a new photo first and then synthesize the new photo and the existing photo by a photo synthesis technology.

The above conventional photo synthesis scheme has the following problems:

1. the synthesis of pictures needs to use professional image processing software (such as photoshop), which has high requirements on the professional skills of users, so that not every user can master the technology, and certain technical barriers exist.

2. The existing photo synthesis software has high resource expenditure and high requirement on the operating environment, cannot be directly operated on intelligent terminal equipment, and often needs to be finished by other equipment, such as a PC (personal computer), so that the operation is not very convenient, the software cost is high, and the legal professional software is over thousands of RMBs.

3. Because different pictures are often taken under different shooting parameters and because of different postures and other problems, the newly-shot picture is often not matched with the picture of the original picture, so that even after the new picture is synthesized, the new picture has a sense of incongruity, the using effect is influenced, and an obvious 'hanging picture' problem can be generated.

4. The existing photo synthesis scheme is to synthesize two taken photos, and if the synthesis effect is not ideal, the adjustment cannot be carried out.

It can be seen that existing photo synthesis schemes exist: the method has high requirements on the professional technology of the user, is not suitable for running on the intelligent terminal equipment, has poor photo fusion effect and the like.

Disclosure of Invention

In view of the above, the main objective of the present invention is to provide a method and an apparatus for taking a photo, which are suitable for an intelligent terminal device, and have good photo synthesis effect and are easy for a user to operate.

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

a method of taking a photograph comprising:

acquiring shooting parameters used by a first photo to be synthesized; configuring camera shooting parameters of the terminal equipment according to the shooting parameters; displaying an image shot by a lens of the terminal equipment in real time through a first picture;

synthesizing an image corresponding to an image synthesis area designated in a first picture with the first picture in real time, correcting the synthesis result according to the current shooting environment condition, and displaying the synthesized correction result through a second picture;

and when a synthesis confirmation instruction is detected, generating a corresponding synthetic photo according to the image displayed on the second picture at present.

A picture taking apparatus comprising:

the first processing unit is used for acquiring shooting parameters used by a first photo to be synthesized; configuring camera shooting parameters of the terminal equipment according to the shooting parameters; displaying an image shot by a lens of the terminal equipment in real time through a first picture;

an image synthesis unit for synthesizing an image corresponding to an image synthesis area designated in a first screen with the first picture in real time, correcting the synthesis result according to the current shooting environment condition, and displaying the corrected synthesis result through a second screen;

and the photo generation unit is used for generating a corresponding composite photo according to the image displayed on the second screen when the composite confirmation instruction is detected.

In summary, the photo shooting method and apparatus provided by the present invention configure the camera shooting parameters of the terminal device by using the shooting parameters used by the first photo to be synthesized; and according to the current shooting environment condition, the synthetic result of the lens image and the first picture is corrected, so that the synthetic image with a good fusion effect can be quickly obtained, the user operation is easy, the resource overhead is low, and the method is suitable for intelligent terminal equipment.

Drawings

FIG. 1 is a schematic flow chart of a method according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an apparatus according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The core idea of the invention is as follows: the shooting parameters of the existing picture of one picture to be synthesized are utilized to adjust the shooting parameters of the other picture to be synthesized and display the shooting parameters in real time, meanwhile, the image of the appointed synthesis area in the picture is combined with the existing picture, and the combined result is corrected and displayed in real time, so that a user can see the real-time picture synthesis effect and can trigger to shoot a second picture to be synthesized under the ideal effect, and the ideal synthesized picture can be obtained. Therefore, the user does not need to master professional image processing technology, and the user can obtain an ideal synthetic photo by directly giving a corresponding photo shooting instruction according to the real-time synthetic effect.

Fig. 1 is a schematic flow chart of a photo shooting method according to an embodiment of the present invention, as shown in fig. 1, the embodiment mainly includes:

step 101, acquiring shooting parameters used by a first photo to be synthesized; configuring camera shooting parameters of the terminal equipment according to the shooting parameters; and displaying the image shot by the lens of the terminal equipment in real time through the first picture.

The difference between the step and the prior scheme is that the camera shooting parameters of the terminal device are configured according to the shooting parameters used by the first picture, namely the camera shooting parameters of the terminal device are the same as the shooting parameters used by the first picture, so as to simulate the shooting conditions of the first picture as much as possible, so that the newly shot image of the terminal device can be better fused with the existing first picture, the picture synthesis effect is improved, and the efficiency of obtaining the synthesized picture satisfied by the user is improved.

Preferably, the first photo may be a photo designated by the user from photos stored in the terminal device. The photo stored in the terminal device may be taken by the terminal device, may be received from another device, or may be downloaded from a network.

In practical application, the terminal device may be a terminal device such as a smart phone or a tablet computer.

Preferably, the shooting parameters used for the first picture to be synthesized can be obtained by the following method:

if the first picture has a shooting information file, acquiring the shooting parameters from the shooting information file; otherwise, analyzing the first picture to obtain the shooting parameters and storing the shooting parameters in a shooting information file of the first picture.

Specifically, the photographing parameters may include at least: shot distance, focal length, focus, light intensity, exposure time, depth of field, aperture, picture size information, and gravity sensing information (i.e., horizontal and vertical angle information).

Preferably, the following method can be adopted to configure the camera shooting parameters of the terminal device:

for parameters which can be automatically set by the terminal equipment in the camera shooting parameters, the terminal equipment sets according to corresponding configuration information in the shooting parameters and displays the parameters to a user; and for parameters which cannot be automatically set by the terminal equipment in the camera shooting parameters, displaying corresponding configuration information in the shooting parameters to a user, and triggering the user to set according to the displayed configuration information.

And 102, synthesizing the image corresponding to the image synthesis area appointed in the first picture with the first picture in real time, correcting the synthesis result according to the current shooting environment condition, and displaying the corrected synthesis result through the second picture.

The method comprises the steps of combining an image of a designated area shot by a lens of the terminal equipment with an existing first photo in real time, and correcting a combined result according to the current shooting environment condition so as to improve the fusion effect of the combined result. Meanwhile, the corrected result is displayed to the user in real time through the second picture in the step, so that the user can conveniently confirm the satisfactory composite image, and when the composite image is not satisfactory, the satisfactory composite image is further obtained by adjusting the shooting posture.

In practical applications, the image composition area is to be set by a user as required, and preferably, the specified image composition area can be set by the following two methods:

the method comprises the following steps: and setting in advance according to the image synthesis area configuration parameters input by a user.

The second method comprises the following steps: and when the first picture is displayed, triggering a user to manually select a corresponding area on the first picture as the image synthesis area.

Preferably, the following method may be adopted in this step to correct the synthesis result according to the current shooting environment condition:

detecting the current shooting environment; and comparing the environmental data obtained after detection with the shooting parameters used by the first picture, and correcting the synthesized result according to the comparison result.

Preferably, when detecting the current shooting environment, the parameters specifically required to be detected may include:

the current light intensity, the gravity sensing information of the terminal equipment and the distance between the terminal equipment and the shooting object.

Preferably, the step 102 may correct the synthesized result according to the comparison result by using the following method:

when the light intensity of the current shooting environment is different from the light intensity used by the first picture, a mode of light supplementing or dimming processing is adopted for the picture, so that the difference value between the light intensity of the synthesized result and the light intensity used by the first picture is smaller than a preset first threshold value.

Here, it is known to those skilled in the art how to perform light filling or light reduction processing on the picture to make the difference between the light intensity of the synthesized result and the light intensity used by the first photo smaller than the preset first threshold, and therefore the details are not described herein,

when the gravity sensing information of the terminal equipment is different from the gravity sensing information used by the first photo, the user is triggered to shoot the current angle through adjustment, so that the difference value between the gravity sensing information of the terminal equipment and the gravity sensing information used by the first photo is smaller than a preset second threshold value.

Specifically, in practical application, when a user needs to be triggered to adjust a current shooting angle, in order to improve adjustment efficiency and accuracy of the user, coordinate information corresponding to gravity sensing information used by a first photo and coordinate information corresponding to gravity sensing information of the terminal device may be displayed on the terminal device, and the user is reminded to coincide the two pieces of coordinate information by adjusting the current shooting angle, so that the gravity sensing information of the terminal device is consistent with the gravity sensing information used by the first photo.

When the distance between the terminal equipment and the shooting object is different from the shooting distance used by the first picture, the mode of adjusting the focal length and the depth of field of the lens is adopted, so that the difference value between the distance between the terminal equipment and the shooting object and the shooting distance used by the first picture is smaller than a preset third threshold value.

The first threshold, the second threshold, and the third threshold are respectively used to ensure that the correction result is close to the corresponding parameter used by the first photo, and the specific value can be set by a person skilled in the art according to actual needs.

Further, in order to improve the fusion effect of the photo synthesis and the efficiency of obtaining an ideal synthesized photo, if the light intensity of the synthesized result cannot be made to be close to the light intensity used by the first photo in the process of correcting the synthesized result, the synthesized result generated thereafter can have a better fusion effect by optimizing the shooting parameters of the camera. Specifically, the following method can be adopted for this purpose:

during the correction, if a light supplementing or dimming mode is adopted for the picture, and the difference value between the light intensity of the synthesized result and the light intensity used by the first picture cannot be smaller than the first threshold value, adjusting the camera shooting parameters of the terminal device according to a preset adjustment strategy according to the comparison result between the light intensity of the current shooting environment and the light intensity used by the first picture.

Wherein the adjusting policy may include: if the light intensity of the current shooting environment is larger than the light intensity used by the first picture, the light entering amount of the lens is reduced by adjusting the shooting parameters of the camera, and if the light intensity of the current shooting environment is smaller than the light intensity used by the first picture, the light entering amount of the lens is increased by adjusting the shooting parameters of the camera.

And 103, when a synthesis confirmation instruction is detected, generating a corresponding synthetic photo according to the image displayed on the second picture currently.

This step is used to generate a corresponding composite photograph for the second screen display image that is confirmed by the user.

In practical applications, if the user is satisfied with the image currently displayed on the second screen, the terminal device may be triggered to generate a corresponding composite photograph for saving by inputting a composite confirmation instruction.

Through the technical scheme, the embodiment can be seen that the related parameters are automatically set for the user by reproducing the scene shot before, the photo newly shot by the user through the terminal equipment is perfectly fused with the existing photo, the synthetic effect is displayed in real time, the photo which can be matched with the photo to be synthesized with high degree can be shot by the user, and then the fusion shooting with the old photo is realized. The invention overcomes the technical requirements of the traditional method on the user, provides a simple solution for the user and technically avoids the appearance of 'floating illumination'. The invention is easy to realize, has low resource cost and is suitable for intelligent terminal equipment, so that the requirement of the intelligent terminal equipment user on photo synthesis can be met. For example, college classmates do not participate in college classmates for some reasons, and take a group photo. The mobile phone of the student B adopts the technical scheme of the invention, and when the group photo is shot, the related parameters during shooting are automatically stored into the shooting information file by using the smart phone. The classmate B meets the classmate A a few days later, and the classmate B complements the same. The classmate B can select the photos shot before first, then load the stored shooting information into the mobile phone, set the smart phone as the parameters during shooting before, intercept the classmate A from the current front lens picture on the shooting screen of the mobile phone, and simultaneously display the combined photos shot last time and the composite images of the selected images on the picture II. The student A can put out a reasonable posture according to the guidance of the student B. After everything is done, the shutter is pressed. The intelligent mobile phone can combine the nail and the photo to form a new photo and share the new photo with everyone.

Fig. 2 is a schematic structural diagram of a photo shooting device corresponding to the above method, including:

a first processing unit 201, configured to acquire shooting parameters used by a first photo to be synthesized; configuring camera shooting parameters of the terminal equipment according to the shooting parameters; displaying an image shot by a lens of the terminal equipment in real time through a first picture;

an image synthesizing unit 202 configured to synthesize an image corresponding to an image synthesis area designated in a first screen with the first photograph in real time, correct the synthesis result according to a current shooting environment condition, and display the corrected synthesis result on a second screen;

and the photo generation unit 203 is used for generating a corresponding composite photo according to the image displayed on the second screen when the composite confirmation instruction is detected.

Preferably, the first processing unit is configured to, when acquiring shooting parameters used by a first photo to be synthesized, if the first photo has a shooting information file, acquire the shooting parameters from the shooting information file; otherwise, analyzing the first picture to obtain the shooting parameters and storing the shooting parameters in a shooting information file of the first picture.

Preferably, the shooting parameters include: shooting distance, focal length, focal point, light intensity, exposure time, depth of field, aperture, photo size information, and gravity sensing information.

Preferably, the first processing unit is configured to, when configuring camera shooting parameters of a terminal device, set parameters that can be automatically set by the terminal device in the camera shooting parameters according to corresponding configuration information in the shooting parameters, and display the parameters to a user; and for parameters which cannot be automatically set by the terminal equipment in the camera shooting parameters, displaying corresponding configuration information in the shooting parameters to a user, and triggering the user to set according to the displayed configuration information.

Preferably, the image synthesizing unit is configured to detect the current shooting environment when the synthesis result is corrected according to the current shooting environment condition, compare the environment data obtained after the detection with the shooting parameters used by the first picture, and correct the synthesis result according to the comparison result.

Preferably, the image synthesizing unit is configured to detect the current light intensity, the gravity sensing information of the terminal device, and a distance between the terminal device and the shooting object when detecting the current shooting environment.

Preferably, when the synthesized result is corrected, if the light intensity of the current shooting environment is different from the light intensity used by the first photo, the image synthesizing unit is configured to perform light supplementing or light reducing processing on the picture so that a difference between the light intensity of the synthesized result and the light intensity used by the first photo is smaller than a preset first threshold; if the gravity sensing information of the terminal equipment is different from the gravity sensing information used by the first picture, triggering a user to enable the difference value between the gravity sensing information of the terminal equipment and the gravity sensing information used by the first picture to be smaller than a preset second threshold value by adjusting the current shooting angle; if the distance between the terminal device and the shooting object is different from the shooting distance used by the first picture, a mode of adjusting the focal length and the depth of field of a lens is adopted, so that the difference value between the distance between the terminal device and the shooting object and the shooting distance used by the first picture is smaller than a preset third threshold value.

Preferably, the image synthesizing unit is further configured to, during the correcting, adjust the camera shooting parameter of the terminal device according to a preset adjustment policy according to a comparison result between the light intensity of the current shooting environment and the light intensity used by the first photo if a light supplementing or dimming processing mode for the picture is adopted and a difference between the light intensity of the synthesized result and the light intensity used by the first photo cannot be made smaller than the first threshold; the adjustment strategy comprises the following steps: if the light intensity of the current shooting environment is larger than the light intensity used by the first picture, the light entering amount of the lens is reduced by adjusting the shooting parameters of the camera, and if the light intensity of the current shooting environment is smaller than the light intensity used by the first picture, the light entering amount of the lens is increased by adjusting the shooting parameters of the camera.

Preferably, the first photo is a photo designated by the user from photos stored in the terminal device.

Preferably, the first processing unit is configured to set the image synthesis area in advance according to an image synthesis area configuration parameter input by a user, or, when the first screen is displayed, trigger the user to manually select a corresponding area on the first screen as the image synthesis area.

In summary, the above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. A method of taking a picture, comprising:

when a synthesis confirmation instruction is detected, generating a corresponding synthetic photo according to the image displayed on the current second picture;

wherein the correcting the synthesis result according to the current shooting environment condition includes:

detecting the current light intensity, the gravity sensing information of the terminal equipment and the distance between the terminal equipment and a shooting object;

comparing the environmental data obtained after detection with the shooting parameters used by the first picture, and correcting the synthesized result according to the comparison result;

when the correction is performed, if a mode of performing light supplement or dimming processing on a picture is adopted, and a difference value between the light intensity of the synthesized result and the light intensity used by the first picture cannot be smaller than a preset first threshold value, adjusting camera shooting parameters of the terminal device according to a preset adjustment strategy according to a comparison result between the light intensity of the current shooting environment and the light intensity used by the first picture;

the adjustment strategy comprises the following steps: if the light intensity of the current shooting environment is larger than the light intensity used by the first picture, the light entering amount of the lens is reduced by adjusting the shooting parameters of the camera, and if the light intensity of the current shooting environment is smaller than the light intensity used by the first picture, the light entering amount of the lens is increased by adjusting the shooting parameters of the camera.

2. The method of claim 1, wherein the obtaining of the shooting parameters used for the first picture to be composed comprises:

3. The method of claim 2, wherein the shooting parameters comprise: shooting distance, focal length, focal point, light intensity, exposure time, depth of field, aperture, photo size information, and gravity sensing information.

4. The method of claim 1, wherein configuring camera shooting parameters of a terminal device comprises:

for parameters which can be automatically set by the terminal equipment in the camera shooting parameters, the terminal equipment sets according to corresponding configuration information in the shooting parameters and displays the parameters to a user;

and for parameters which cannot be automatically set by the terminal equipment in the camera shooting parameters, displaying corresponding configuration information in the shooting parameters to a user, and triggering the user to set according to the displayed configuration information.

5. The method of claim 1, wherein the correcting the synthesized result according to the comparison result comprises:

when the light intensity of the current shooting environment is different from the light intensity used by the first picture, a mode of light supplementing or light reducing processing is adopted for the picture, so that the difference value between the light intensity of the synthesized result and the light intensity used by the first picture is smaller than a preset first threshold value;

when the gravity sensing information of the terminal equipment is different from the gravity sensing information used by the first picture, triggering a user to enable the difference value between the gravity sensing information of the terminal equipment and the gravity sensing information used by the first picture to be smaller than a preset second threshold value by adjusting the current shooting angle;

6. The method of claim 1, wherein the first photo is a photo specified by a user from photos stored in the terminal device.

7. The method according to claim 1, wherein the setting method of the designated image synthesis area includes:

and setting in advance according to image synthesis area configuration parameters input by a user, or triggering the user to manually select a corresponding area on the first picture as the image synthesis area when the first picture is displayed.

8. A picture taking apparatus, comprising:

an image synthesis unit, configured to synthesize an image corresponding to an image synthesis area specified in a first screen with the first picture in real time, correct a synthesis result according to a current shooting environment condition, and display the corrected synthesis result through a second screen, where the correcting the synthesis result according to the current shooting environment condition includes: detecting the current light intensity, the gravity sensing information of the terminal equipment and the distance between the terminal equipment and a shooting object; comparing the environmental data obtained after detection with the shooting parameters used by the first picture, and correcting the synthesized result according to the comparison result; when the correction is carried out, if a mode of light supplementing or dimming processing on a picture is adopted, and the difference value between the light intensity of the synthesized result and the light intensity used by the first picture cannot be smaller than a preset first threshold value, adjusting the camera shooting parameters of the terminal equipment according to a preset adjustment strategy according to the comparison result of the light intensity of the current shooting environment and the light intensity used by the first picture; the adjustment strategy comprises the following steps: if the light intensity of the current shooting environment is larger than the light intensity used by the first picture, reducing the lens light-entering amount by adjusting the camera shooting parameters, and if the light intensity of the current shooting environment is smaller than the light intensity used by the first picture, increasing the lens light-entering amount by adjusting the camera shooting parameters;

9. The apparatus according to claim 8, wherein the first processing unit is configured to, when acquiring the shooting parameters used for the first picture to be synthesized, if the first picture has a shooting information file, acquire the shooting parameters from the shooting information file; otherwise, analyzing the first picture to obtain the shooting parameters and storing the shooting parameters in a shooting information file of the first picture.

10. The apparatus of claim 9, wherein the shooting parameters comprise: shooting distance, focal length, focal point, light intensity, exposure time, depth of field, aperture, photo size information, and gravity sensing information.

11. The apparatus according to claim 8, wherein the first processing unit is configured to, when configuring camera shooting parameters of a terminal device, perform setting on parameters that can be automatically set by the terminal device in the camera shooting parameters according to corresponding configuration information in the shooting parameters, and display the parameters to a user; and for parameters which cannot be automatically set by the terminal equipment in the camera shooting parameters, displaying corresponding configuration information in the shooting parameters to a user, and triggering the user to set according to the displayed configuration information.

12. The apparatus of claim 8, wherein the image synthesizing unit is configured to, when correcting the synthesized result, if the light intensity of the current shooting environment is different from the light intensity used in the first photo, perform light supplementing or dimming processing on the picture so that a difference between the light intensity of the synthesized result and the light intensity used in the first photo is smaller than a preset first threshold; if the gravity sensing information of the terminal equipment is different from the gravity sensing information used by the first picture, triggering a user to enable the difference value between the gravity sensing information of the terminal equipment and the gravity sensing information used by the first picture to be smaller than a preset second threshold value by adjusting the current shooting angle; if the distance between the terminal device and the shooting object is different from the shooting distance used by the first picture, a mode of adjusting the focal length and the depth of field of a lens is adopted, so that the difference value between the distance between the terminal device and the shooting object and the shooting distance used by the first picture is smaller than a preset third threshold value.

13. The apparatus of claim 8, wherein the first photo is a photo specified by a user from photos stored by the terminal device.

14. The apparatus according to claim 8, wherein the first processing unit is configured to set the image composition area in advance according to an image composition area configuration parameter input by a user, or, when the first screen is displayed, trigger the user to manually select a corresponding area on the first screen as the image composition area.