KR101644888B1 - Terminal having camera and method for processing image thereof - Google Patents

Abstract

The present invention relates to a terminal having a camera and a method of processing an image in the terminal, comprising the steps of: collecting a user image photographed at a user focal distance through a camera and a link image photographed at a selected focal length; And linking and storing the link image in the user image.

Description

TECHNICAL FIELD [0001] The present invention relates to a terminal having a camera and an image processing method using the terminal.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a terminal and an image processing method in the terminal, and more particularly, to a method of processing an image photographed using different focal lengths in a camera provided in a terminal and a terminal performing the same.

With the development of modern science and technology, users can generate and store data through various terminals and can check the stored data whenever the user needs it. Also, as users' demands are diversified, terminals are being developed as complex terminals in which functions performed in each terminal can be performed through a single terminal. Such terminals may include a computer, a portable terminal, an MP3 player, a PMP, and a digital camera.

Of these terminals, the digital camera can take images of the moment that the user wants to memorize, or an image that can be kept at a specific time. In addition, digital cameras are becoming smaller in size due to the development of science and technology. These advantages enable many users to carry a digital camera, and a digital camera can be mounted on a small device such as a mobile terminal.

However, an image photographed through a digital camera is limited to a size displayed on a display unit such as a viewfinder, and thus can include only information about a moment desired by the user. Accordingly, when the user confirms the photographed image, it is inconvenient that the user can not know the surrounding environment or the situation when the photographed image is photographed.

In order to solve the above problems, the present invention provides a terminal having a camera and an image processing method in the terminal.

According to an aspect of the present invention, there is provided an image processing method comprising: collecting a user image photographed at a user focal distance and a link image photographed at a selected focal length through a camera; And linking and storing the link image in the user image.

According to another aspect of the present invention, there is provided a terminal for capturing a user image and a link image according to a selected focal length. A storage unit for storing the photographed user image and the link image; A display unit capable of displaying the photographed user image or link image; And a control unit controlling the camera to photograph the user image and the link image according to the selected user focal length, link the link image to the user image, and store the link image in the storage unit.

According to the present invention, in addition to a subject to be photographed by a user with a terminal equipped with a camera, a surrounding situation or environment when the subject is photographed is also photographed. The terminal can link and store the photographed images. The user can then check the images linked to the images together when checking the captured images. Through this, the user can remind the user of the situation or surrounding environment that occurred when shooting the image.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 schematically shows a configuration of a terminal according to an embodiment of the present invention; FIG.
2 shows a camera according to the invention.
FIG. 3A and FIG. 3B are diagrams illustrating a screen image illustrating a screen for displaying an image according to an embodiment of the present invention; FIG.
4 is a diagram illustrating an example of a screen for displaying an image according to the present invention.
5 is a view showing a ratio between a user image and a link image according to the present invention;
6 is a flow chart illustrating a method of processing an image in accordance with the present invention.
7 is a flowchart illustrating a process of photographing an image according to an embodiment of the present invention.
8 is a flowchart illustrating a process of displaying an image according to an embodiment of the present invention.
9 is a flowchart illustrating an image capturing method according to another embodiment of the present invention.
10 is a flow chart illustrating a method of photographing an image according to a focal length according to an embodiment of the present invention.

A 'terminal' is an information processing device capable of processing various data, and may include a computer, a notebook, an MP3, a portable terminal, a digital camera, and a portable multimedia player (PMP). Particularly, the terminal is a portable terminal. A digital camera, and the like, and means a terminal capable of generating an image using the camera.

'Focal distance' means the distance between the lens and the image sensor that make up the camera. The " reference focal length " means the focal length set for displaying the preview image on the display unit before shooting the image through the camera. The 'user focal length' means the focal length set by the user's choice. The 'minimum focus distance' means the focal length at which the distance between the lens and the image sensor is set to the minimum, and the zoom-out is maximized. The " maximum focal length " means the focal length at which the distance between the lens and the image sensor is set to the maximum, and the zoom-in maximum is the focal length.

'User image' means an image taken by the camera according to the user's focal distance set by the user.

The 'link image' is an image linked with the user image, which is the image taken with the maximum or minimum focal length, which is the selected focal length, which is selected according to the user's focal distance when shooting the user image. Here, the link image may include not only the subject included in the user image but also the surrounding environment and the situation. The link image may have a resolution different from the user image depending on the user's selection.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of well-known functions and constructions that may obscure the gist of the present invention will be omitted.

1 is a view schematically showing a configuration of a terminal according to an embodiment of the present invention.

1, a terminal includes a camera 110, a display unit 120, a control unit 130, a storage unit 140, and an input unit 150.

The camera 110 may take images of different focal lengths under the control of the controller 130. [ Here, the camera 110 captures the user image 143 at a focal length selected by the user under the control of the control unit 130. [ Then, the camera 110 photographs the link image 145 with a selected focal distance set according to the user focal distance under the control of the control unit 130. [ The configuration of the camera 110 will be described in more detail with reference to FIG. FIG. 2 is a block diagram illustrating the construction of a camera according to the present invention.

Referring to FIG. 2, the camera 110 may include a lens 113, an image sensor 115, and a distance measurement sensor 117 as shown in (a). The lens 113 grasps a surface of a transparent material such as glass with a spherical surface, and collects subject information, which is information of light emitted from the subject. The image sensor 115 is an image sensor 115 such as a CCD (Charge Coupled Device) or a CMOS (Complement Metal Oxide Semiconductor), and can convert the subject information collected through the lens 113 into digital image data. The distance measuring sensor 117 measures the distance between the image sensor 115 and the subject, and transmits the measured distance to the controller 130. Here, the distance measuring sensor 117 may include an ultrasonic sensor or an infrared sensor.

In order for the image to be captured, the distance measuring sensor 117 measures the distance to the subject and transmits the measured distance to the control unit 130. Then, the lens 113 and the image sensor 115 of the camera 110 are set to a reference focal distance according to the distance measured under the control of the control unit 130. [ When the subject information is collected through the lens 113, the image sensor 115 converts the subject information into digital image data, and transmits the digital image data to the control unit 130.

The focal distance between the lens 113 of the camera 110 and the image sensor 115 is set to the focal distance according to the user's selection under the control of the control unit 130. [ The lens 113 can collect the subject information according to the set focal distance.

The subject information collected through the lens 113 depends on the focal distance set on the camera 110. [ To explain more easily, the correlation between the focal distance and the subject information is explained through the zoom in / out function of the camera 110. [ For example, the zoom-in function enlarges the subject and displays it. The focal distance of the camera 110 lens 113 may be set stepwise close to the maximum focal distance, which is the maximum distance between the lens 113 and the image sensor 115, in order to perform the zoom-in function. The zoom-out function displays not only the subject but also the surrounding environment and the situation of the subject. The focal distance can be set stepwise close to the minimum focal distance, which is the minimum distance between the lens 113 and the image sensor 115, in order for the zoom-out function to be performed. As the focal length is shortened, the information that can be collected by the camera 110 can be collected not only the subject information but also the information corresponding to the surrounding environment or situation. The longer the focal length is, the more the camera 110 can collect information corresponding to the subject.

Also, the camera 110 may include a first lens 113a and a second lens 113b, image sensors 115a and 115b connected to the respective lenses, and a distance measurement sensor 117, as shown in (b) . Each of the image sensors 115a and 115b and the distance measuring sensor 117 refer to the image sensor 115 and the distance measuring sensor 117 described in (a). Also, the first lens 113a and the second lens 113b can perform the same function as the lens 113 described in (a).

Here, the first lens 113a may be set at various focal distances under the control of the controller 130, the second lens 113b may be composed of an optical lens, and the focal distance may be fixed at a minimum focal distance.

A method of photographing an image with the camera 110 having the first lens 113a and the second lens 113b may be as follows. The distance measuring sensor 117 measures the distance to the subject and transmits the measured distance to the control unit 130. The focal distance between the first lens 113a of the camera 110 and the image sensor 115a is set as a reference focal distance according to the distance measured under the control of the control unit 130. [ When the subject information is collected through the first lens 113a, the first image sensor 115a converts the collected subject information into digital image data. The first image sensor 115a transfers the converted digital image data to the control unit 130. [ When the image is photographed through the first lens 113a, the subject information can be simultaneously collected through the second lens 113b. At this time, since the second lens 113b is an optical lens, information collected through the second lens 113b can be collected not only in the subject information but also in the surrounding environment or information corresponding to the situation.

Further, the lens 113 of the camera 110 is set to a minimum focal distance under the control of the controller 130, and the subject information can be collected according to the set minimum focal distance. Here, the subject information collected through the lens 113 varies depending on the focal distance set on the camera 110.

The lens 113, the image sensor 115 and the distance sensor constituting the camera 110 have been described above, and the lens 113 can be provided with one or two lenses. In the present invention, a camera 110 having one lens 113 will be described as an example.

The display unit 120 may display various information related to the overall status and operation of the terminal. Here, the display unit 120 may display a user image 143 photographed through the camera 110 under the control of the controller 130. In the image display mode, the display unit 120 may display at least one user image 143 in the form of a thumbnail under the control of the controller 130. The display unit 120 may display a link icon 147 indicating that there is a link image 145 linked to the user image 143 in the thumbnail under the control of the control unit 130. [ The display unit 120 may display the user image 145 as an overlay on the link image 145 under the control of the control unit 130. [ Hereinafter, a method of displaying a user image on the display unit 120 will be described with reference to FIGS. 3A and 3B. FIGS. 3A and 3B are diagrams illustrating screen images illustrating images according to an exemplary embodiment of the present invention.

Referring to FIG. 3A, in the image display mode, the display unit 120 displays a user image 143 in the form of a thumbnail. If there is a link image 145 linked to the user image 143, the display unit 120 may display a thumbnail corresponding to the user image 143 as an overlay on a thumbnail corresponding to the link image 145 .

Referring to FIG. 3B, when there is a link image 145 photographed together with the user image 143, the display unit 120 displays a link icon 147 together with a thumbnail indicating the user image 143. Here, the user image 143 displayed on the display unit 120 is displayed as a thumbnail, but it can be displayed as a list. When the user image 143 is displayed as a list, the display unit 120 may display the link image 145 with the link icon 147 or with the user image 143 as a thumbnail.

When the user image 143 displayed in the thumbnail or list is selected, the display unit 120 can enlarge and display the selected user image 143 under the control of the control unit 130. Here, the display unit 120 displays a link icon 147 for selecting a link image 145 linked to the user image 143. [ When the link icon 147 is selected, the display unit 120 can display the link image 145 under the control of the control unit 130. [ At this time, the display unit 120 may display only the link image 145 under the control of the controller 130, or may overlay the user image 143 on the link image 145. FIG. Here, a method of displaying the link image 145 will be described later with reference to Fig.

The controller 130 controls the overall state and operation of the components constituting the terminal. In particular, when capturing an image, the control unit 130 calculates a reference focal distance according to the distance from the subject to be sensed through the camera 110. [ Then, the controller 130 sets the camera 110 to the calculated reference focal length, and displays the preview image obtained through the camera 110 on the display unit 120.

Next, the control unit 130 photographs the user image 143 through the camera 110 set to the user's focal distance. At this time, the controller 130 determines whether the reference focal length calculated to display the preview image is smaller than the user focal length selected by the user. If the reference focal length is shorter than the user focal length, the control unit 130 sets the camera 110 with a minimum focal length. Then, the control unit 130 photographs the link image 145 corresponding to the minimum focal length through the camera 110. The control unit 130 links the link image 145 to the user image 143 and stores the link image 145 in the storage unit 140.

When the image display mode is selected, the control unit 130 controls the display unit 120 to display the user image 143 stored in the storage unit 140 in a thumbnail form. Here, the control unit 130 may display the link icon 147 in the user image 143 including the link image 145. Alternatively, the control unit 130 may display the user image 143 on the display unit 120 by overlaying the link image 145 on the user image 143. [

When the user image 143 displayed in a thumbnail form is selected, the control unit 130 displays the selected user image 143 on the display unit 120 in an enlarged manner. If there is a link image 145 linked to the user image 143 displayed on the display unit 120, the control unit 130 displays a link icon 147 on the display unit 120 from which the linked image can be selected. When the link icon 147 is selected, the control unit 130 displays the link image 145 linked with the user image 143 on the display unit 120. At this time, the control unit 130 may display only the link image 145 on the display unit 120 according to the user's selection. Or the control unit 130 can reduce the user image 143 to a certain ratio and then display the user image 143 on the display unit 120 by overlaying the link image 145 on the display unit 120. [ At this time, the control unit 130 may display the user image 143 and the link image 145 in the same center. Here, the center of the user image 143 and the link image 145 may be a focused area in image shooting. Hereinafter, a method of displaying the user image 143 and the link image 145 will be described in detail with reference to FIGS. 4 and 5. FIG. 4 is a diagram illustrating an example of a screen for displaying an image according to the present invention.

Referring to FIG. 4, the controller 130 displays the user image 143 selected by the user on the display unit 120 as shown in (a). If there is a link image 145 linked to the user image 143, the control unit 130 displays the link icon 147 together with the user image 143. Here, the link icon 147 is displayed on the upper right of the user image 143, but is not limited thereto. In other words, the link icon 147 can be displayed in any part of the user image 143, and the shape of the link icon 147 can be displayed in various ways.

When the link icon 147 is selected, the control unit 130 may display the link image 145 linked to the user image 143 on the display unit 120 as shown in (b). Here, when the link image 145 is photographed, the control unit 130 may reduce the link image 145 or reduce the user image 143 according to the comparison result of the user focal distance and the reference focal length.

For example, if the link image 145 is photographed with the minimum focal length and stored in the storage unit 140, the control unit 130 reduces the size of the user image 143 by a certain ratio. The control unit 130 may display the reduced user image 143 overlaid on the link image 145. [ At this time, the control unit 130 may display the link image 145 more translucently than the user image 143. The control unit 130 may display the reduced user image 143 on the display unit 120 by matching the center of the link image 145 with the reduced image. The control unit 130 may display the reduced user image 143 overlaid on the link image 145 at any position. Here, a method of reducing the user image 143 by a certain ratio or reducing the link image 145 will be described in detail with reference to FIG. 5 is a view showing a user image and a link image according to the focal length according to the present invention.

Referring to FIG. 5, the range L of the subject in the link image photographed according to the minimum focal length is as shown in (a). The range of the subject in the user image L 'photographed according to the user focal length is as shown in (b).

where F is the minimum focal length between the image sensor 115 and the lens 113, F is the focal length of the image sensor 115, Is the user focal distance selected by the user between the image sensor 115 and the lens 113. [ At this time, the size d of the image sensor 115 may have different sizes when there are two lenses 113.

And L is the range of the subject included in the link image 145 converted by the image sensor 115 according to the minimum focal length F 'and L' is the range of the subject included in the image sensor 115 Is the range of the subject included in the user image 143 to be converted. Here, it is assumed that the user image 143 and the link image 145 have the same resolution and the user focal length F is longer than the minimum focal length F '.

 The subject range L 'that can be photographed according to the user focal length F is smaller than the subject range L which can be photographed according to the minimum focal length F'. Therefore, the control unit 130 can reduce the size of the user image 143 to match the overlapping object range with the link image 145. [ The control unit 130 calculates a proportional value between the range L 'of the subject included in the user image 143 and the range L of the subject included in the link image 145 to reduce the user image 143. For this purpose, the controller 130 calculates the range L 'of the subject included in the user image 143 and the range L of the subject included in the link image 145 using the following equation.

Where F is the minimum focal length between the image sensor 115 and the lens 113, F is the focal length of the image sensor 115, 0.0 > (113). ≪ / RTI >

The controller 130 calculates L 'and L, which are ranges of the subject according to the focal lengths, using Equations (1) and (2). Then, the control unit 130 reduces the user image 143 to a proportional value calculated by dividing L 'by L.

If the resolutions of the user image 143 and the link image 145 are different from each other, the controller 130 divides the resolution of the user image 143 by the resolution of the link image 145 to calculate a value. The control unit 130 calculates a proportional value by multiplying the calculated value by a value obtained by dividing the range L 'of each subject included in the user image 143 and the link image 145 by L. The controller 130 reduces the user image 143 using the calculated proportional value.

Next, it is assumed that the user focal length F is shorter than the minimum focal length F '. At this time, the controller 130 also calculates the ranges L 'and L of the subject according to the focal lengths using Equations (1) and (2). Then, the control unit 130 reduces the link image 145 to a proportional value calculated by dividing L 'by L.

The storage unit 140 may store an application program related to a function that can be performed in the terminal and data generated while the function is being performed. Here, the storage unit 140 stores the user image 143 and the link image 145 captured by the image capturing function under the control of the control unit 130. The storage unit 140 may store a link icon 147 for selecting the link image 145 linked with the user image 143 in the image display mode.

The input unit 150 transmits a signal input in association with the setting of various functions input from the user and the function control of the terminal to the controller 130. Here, the input unit 150 may include a function key for selecting a focal length of the camera 110 in a camera 110 mode, and a function key for selecting an image capture. In addition, the input unit 150 may include a function key for selecting a link icon 147 displayed in the user image 143 in the image display mode.

In the foregoing, each configuration of the terminal has been described. Next, a method of photographing an image on the terminal and displaying the photographed image will be described with reference to Figs. 6 to 8. Fig. 6 is a flow diagram illustrating a method of processing an image in accordance with the present invention.

6, when the user selects the camera 110 mode through a menu or a function key, the controller 130 switches the portable terminal mode to a camera mode for performing a function related to the camera 110 in step 610 do. Here, the control unit 130 may display on the display unit 120 functions that can be performed in the camera mode. At this time, the functions that can be performed in the camera mode may be a shooting function, an image display function, an image editing function, and the like.

In step 620, the controller 130 determines whether a photographing function is selected. If the user selects the photographing function to photograph an image, the controller 130 drives the camera 110 in step 630. [ In step 640, the control unit 130 photographs an image according to the user's selection. Here, step 640 will be described later with reference to FIG.

If the photographing function is not selected in step 620, the controller 130 determines in step 650 whether the image displaying function is selected. If the user selects the image display function to confirm the image stored in the terminal, the controller 130 displays the image selected by the user on the display unit 120 in step 660. Step 660 will be described later with reference to FIG.

However, if the image display function is not selected in step 650, the controller 130 performs the functions selected by the user in step 670. The functions that can be performed here may be functions that can process images such as an image editing function, and may be a function of reproducing or generating other kinds of data such as PMP and MP3.

Next, step 640 of photographing an image will be described with reference to FIG. 7 is a flowchart illustrating a process of photographing an image according to an embodiment of the present invention.

Referring to FIG. 7, when the camera 110 is driven, the controller 130 checks the reference focal length f in step 710. The controller 130 sets the camera 110 at the reference focal length f determined in step 715 and displays the preview image obtained according to the set reference focal length f on the display unit 120. [ Here, the reference focal length f may be set according to the distance between the camera 110 and the subject automatically confirmed when the camera 110 is initially driven. Or the reference focal length f may be the distance between the lens 113 and the image sensor 115 set as a reference.

In step 720, the controller 130 determines whether the user focal length F is selected. A method of determining whether the user focal length F is selected may be a method of determining whether the controller 130 selects a zoom in or zoom out function through a menu or a function key.

If the user focal length F is selected, the controller 130 sets the focal length of the camera 110 to the selected user focal length F. [ In step 725, the control unit 130 determines whether photographing is selected. If the user selects shooting through function keys or menus, the controller 130 determines whether the user focal length F selected in step 730 is longer than the reference focal length f. If the user focal distance F is shorter than the reference focal length f, the controller 130 controls the camera 110 in step 735 to acquire the user image 143 corresponding to the user focal length F. [

On the other hand, if the user focal length F is longer than the reference focal length f, the controller 130 acquires the user image 143 corresponding to the user focal length F through the camera 110 in step 740. The control unit 130 displays the user image 143 photographed in step 745 on the display unit 120. Next, in step 750, the controller 130 sets the focal length of the camera 110 to a minimum focal length and obtains a link image 145 corresponding to the set minimum focal length.

If the link image 145 is acquired, the controller 130 determines whether the storage is selected in step 760. If the storage is not selected, the controller 130 can perform the operation again from step 725 to acquire the user image 143 and the link image 145 again. However, when the user selects the storage via the menu or function key input, the controller 130 links the link image 145 to the user image 143 in step 765 and stores the link image 145 in the storage unit 140.

If the user focal distance F is not selected in step 720, the control unit 130 determines whether the photographing is selected through the input unit 150 in step 770. If the photographing is selected, the control unit 130 acquires an image according to the selected function through the camera 110 in step 775. The functions that can be selected here may include functions that can be selected incidentally at the time of image shooting such as a self-timer function, an image quality selection function, a white balance selection function, and the like. Then, the control unit 130 stores the image obtained in step 780 in the storage unit 140.

Up to now, a method of photographing the user image 143 and the link image 145 through a camera having a single lens has been described. The method of photographing the user image 143 and the link image 145 through the camera with the two lenses is the same as that of the first embodiment except that the link image 145 can be photographed at the same time when photographing the user image 143 The user image 143 and the link image 145 are photographed through a camera equipped with a lens of a lens. More specifically, in the case of a camera having two lenses, a user image 143 corresponding to the user's focal length F can be acquired through the first lens 113a, To obtain the link image 145 according to the minimum focal length F '. The control unit 130 can simultaneously acquire the user image 143 and the link image 145 through the first lens 113a and the second lens 113b included in the camera 100. [ At this time, the control unit 130 may display only the user image 143 on the display unit 120. FIG.

Next, step 660 of photographing an image will be described with reference to FIG. 8 is a flowchart illustrating a process of displaying an image according to an embodiment of the present invention.

8, when the image display mode is selected, the controller 130 displays at least one user image 143 stored in the storage unit 140 on the display unit 120 in a thumbnail form in step 810. Here, the user image 143 to which the link image 145 is linked according to the user's selection or the terminal manufacturer may be displayed together with the link icon 147 so that the user can distinguish the user image 143 from the other user images 143. In addition, the user image 143 may be displayed in an overlaid form in the link image 145. [ And the user image 143 is displayed as a thumbnail. However, the present invention is not limited thereto. That is, the user image 143 may be listed as a list according to the user's selection.

  In step 815, the controller 130 determines whether a thumbnail is selected. When the user selects a desired user image 143 through a function key provided in the input unit 150, the control unit 130 checks the user image 143 corresponding to the thumbnail selected in operation 820. In step 830, the controller 130 determines whether there is a link image 145 linked to the user image 143 identified through the storage unit 140. If the linked link image 145 exists, the control unit 130 displays the user image 143 and the link icon 147 identified on the display unit 120 in step 835.

In step 840, the controller 130 determines whether the link icon 147 is selected. If the link icon 147 is selected, the control unit 130 displays the link image 145 linked to the user image 143 on the display unit 120 in step 845. Here, the method of displaying the link image 145 may be such that only the link image 145 is displayed on the display unit 120. [ Or the size of the user image 143 or the link image 145 is reduced and then overlaid on the link image 145 or the user image 143 and displayed on the display unit 120. [

On the other hand, if there is no link image 145 linked to the user image 143 in step 830, the control unit 130 displays the selected user image 143 on the display unit 120 in step 850.

So far, we have shown how to shoot two images with different focal lengths, and how to check two captured images. Here, when the user's focal length set by the user is longer than the reference focal length, the controller 130 controls the camera 110 to photograph the link image 145 according to the minimum focal length. However, even if the focal length selected by the user is shorter than the reference focal distance, the controller 130 controls the camera 110 to photograph the link image 145 according to the maximum focal length. At this time, the control unit 130 may reduce the link image 145 and display it on the user image 143 in the image display mode.

In the above description, the user image 143 and the link image 145 are photographed and displayed in the image display mode. Particularly, in the method of photographing the user image 143 and the link image 145, when the user image 143 is photographed, a method of photographing the link image according to the minimum focal length when the user focal length is longer than the reference focal length . Next, another method by which the link image 145 can be taken together when photographing the user image 143 in step 640 of FIG. 6 will be described with reference to FIG. 9 is a flowchart illustrating an image capturing method according to another embodiment of the present invention.

Referring to FIG. 9, when the camera 110 is driven, the controller 130 checks the reference focal length f in step 910. The controller 130 sets the camera 110 at the reference focal length f determined in step 915 and then displays the preview image acquired according to the set reference focal length f on the display unit 120. [

In step 920, the controller 130 determines whether a link image photographing function is selected through a menu or a function key input. If the link image photographing function is selected, the controller 130 determines in step 925 whether the user focal length F is selected. Here, the user focal length F may be maintained by the reference focal length f determined to display the first preview image on the display unit 120, or may be changed through a zoom in or zoom out function. Although not shown in the drawings, the minimum focal length or the maximum focal length for photographing the link image 145 can be selected by the user when the user focal length F is selected. For example, when the link image photographing function is selected, the control unit 130 displays on the display unit 120 a focal length selection window for selecting the user focal distance F, the minimum focal length and the maximum focal length. Then, the controller 130 displays a selection bar for selecting a zoom in / out in the focal distance selection window for each focal distance.

When the user's focal length F is selected, the control unit 130 determines whether photographing is selected through photographing key input or the like. If photographing is selected, the controller 130 acquires a user image and a link image through the camera 110 in step 940. Step 940 will be described in detail with reference to FIG. 10 is a flowchart illustrating a method of photographing an image according to a focal length according to an embodiment of the present invention.

10, when the photographing is selected, the controller 130 compares the reference focal length f with the user's focal length F in step 1010 to obtain the user image 143 and the link image 145 have. Here, the link image 145 is an image that is photographed with a selected focal length selected according to a comparison of the user focal distance and the reference focal length. If the reference focal length f is shorter than the user focal length F, the controller 130 acquires the user image 143 corresponding to the user focal length F through the camera 110 in step 1020. Then, the controller 130 displays the user image 143 obtained in step 1030 on the display unit 120. In step 1040, the controller 130 sets the focal length of the camera 110 to a minimum focal length, and photographs a link image corresponding to the minimum focal length. Then, the control unit 130 returns to FIG.

However, if the reference focal length f is equal to the user focal length F, the controller 130 obtains the user image 143 corresponding to the user focal distance through the camera 110 in step 1050. Then, the control unit 130 displays the acquired user image 143 on the display unit 120. Then, the control unit 130 returns to FIG.

On the other hand, if the reference focal length f is longer than the user focal length F, the controller 130 acquires the user image 143 corresponding to the user focal length F through the camera 110 in step 1070. Next, the control unit 130 displays the user image 143 obtained in step 1080 on the display unit 120. [ In step 1090, the controller 130 sets the focal length of the camera 110 to the maximum focal length, and then photographs the link image 145 corresponding to the set maximum focal length. Then, the control unit 130 returns to FIG.

Referring back to FIG. 9, the controller 130, which has photographed the user image and the link image, determines whether storage is selected through a menu or an OK key input in step 950. The controller 130 links the link image 145 to the user image 143 and stores the link image 145 in the storage unit 140 in step 960. [

However, if the link image capturing function is not selected in step 920, the controller 130 determines in step 970 whether photographing through menu or function key input is selected. When the photographing is selected, the controller 130 acquires an image according to the function selected through the camera 110 in step 975. The function selected here is a function that can be performed incidentally through the camera, and can be a self-shutter function, an image quality selection function, a white balance selection function, and the like. Next, the control unit 130 stores the image obtained in step 980 in the storage unit 140. FIG.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

110: camera 120: display unit
130: control unit 140:
143: User image 145: Link image
150:

Claims (12)

A method for processing an image in a mobile terminal,
Receiving a user input for capturing a first image having a first subject and capturing a second image having a second subject different from the first subject,
And providing the first image and the second image on a display of the mobile terminal,
Wherein the first image is captured by a first image sensor and the second image is captured by a second image sensor, the first image sensor having a lens having an adjustable focal length, the second image sensor A lens having a fixed focal length,
The adjustable focal length is determined based on a distance between the first object and the portable terminal, the distance is detected by the distance measuring sensor,
Wherein the second image is smaller in size than the first image and is superimposed over the first image. The method of claim 1, wherein the providing of the first image and the second image comprises:
And changing the position of the second image relative to the overlapping position of the second image on the first image. The method of claim 1, wherein the providing of the first image and the second image comprises: displaying the first image at a first resolution; and displaying the second image at a second resolution,
Wherein the first resolution is greater than the second resolution. The method of claim 1, wherein the portable terminal includes a body, and the first image sensor and the second image sensor are located in the body. In a mobile terminal,
An input configured to receive user input;
A first image sensor configured to capture a first image including a first subject in response to the user input;
A second image sensor configured to capture a second image including a second subject in response to the user input; And
And a display configured to display the first image and the second image,
Wherein the first image sensor has a lens having an adjustable focal length, the second image sensor has a lens having a fixed focal length,
Wherein the adjustable focal length is determined based on a distance between the first object and the portable terminal, the distance is detected by a distance measuring sensor,
Wherein the second image is smaller in size than the first image and superimposed on the first image. The display device according to claim 5,
And displays the first image and the second image by changing the position of the second image in relation to the overlapping position of the second image on the first image. 6. The apparatus of claim 5, wherein the display unit displays the first image at a first resolution and the second image at a second resolution,
Wherein the first resolution is greater than the second resolution. The portable terminal of claim 5, further comprising a body, wherein the first image sensor and the second image sensor are located in the body. A storage medium storing instructions,
Wherein the instructions are configured to cause the at least one processor to perform at least one process when executed by at least one processor of the electronic device,
Receiving a user input for capturing a first image having a first subject and capturing a second image having a second subject different from the first subject,
And providing the first image and the second image on a display of the mobile terminal,
Wherein the first image is captured by a first image sensor and the second image is captured by a second image sensor, the first image sensor having a lens having an adjustable focal length, the second image sensor A lens having a fixed focal length,
The adjustable focal length is determined based on a distance between the first object and the portable terminal, the distance is detected by the distance measuring sensor,
Wherein the second image is smaller in size than the first image and superimposed over the first image. The method of claim 9, wherein the providing of the first image and the second image comprises:
And changing the position of the second image relative to the overlapping position of the second image on the first image. The method of claim 9, wherein the providing of the first image and the second image comprises: displaying the first image at a first resolution; and displaying the second image at a second resolution,
Wherein the first resolution is greater than the second resolution. 10. The storage medium of claim 9, wherein the portable terminal includes a body, and the first image sensor and the second image sensor are located in the body.

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